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Determinations/Other as amended, taking into account amendments up to National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2015 (No. 2)
This Determination provides for the Minister to determine methods, or criteria for methods, for the measurement of greenhouse gas emissions, the production of energy and the consumption of energy.
Administered by: Environment
Registered 01 Jul 2015
Start Date 01 Jul 2015
End Date 30 Jun 2016
Table of contents.

National Greenhouse and Energy Reporting (Measurement) Determination 2008

made under subsection 10(3) of the

National Greenhouse and Energy Reporting Act 2007

Compilation No. 7

Compilation date:                              1 July 2015

Includes amendments up to:            National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2015 (No. 2).

Registered:                                         1 July 2015

 

About this compilation

This compilation

This is a compilation of the National Greenhouse and Energy Reporting (Measurement) Determination 2008 that shows the text of the law as amended and in force on 1 July 2015 (the compilation date).

This compilation was prepared on 1 July 2015.

The notes at the end of this compilation (the endnotes) include information about amending laws and the amendment history of provisions of the compiled law.

Uncommenced amendments

The effect of uncommenced amendments is not shown in the text of the compiled law. Any uncommenced amendments affecting the law are accessible on ComLaw (www.comlaw.gov.au). The details of amendments made up to, but not commenced at, the compilation date are underlined in the endnotes. For more information on any uncommenced amendments, see the series page on ComLaw for the compiled law.

Application, saving and transitional provisions for provisions and amendments

If the operation of a provision or amendment of the compiled law is affected by an application, saving or transitional provision that is not included in this compilation, details are included in the endnotes.

Modifications

If the compiled law is modified by another law, the compiled law operates as modified but the modification does not amend the text of the law. Accordingly, this compilation does not show the text of the compiled law as modified. For more information on any modifications, see the series page on ComLaw for the compiled law.

Self‑repealing provisions

If a provision of the compiled law has been repealed in accordance with a provision of the law, details are included in the endnotes.

  

  

  


Contents

Chapter 1—General                                                                                                                              1

Part 1.1—Preliminary                                                                                                                                    1

1.1......................... Name of Determination................................................................................. 1

1.2......................... Commencement............................................................................................. 1

Division 1.1.1—Overview                                                                                                                     1

1.3......................... Overview—general....................................................................................... 1

1.4......................... Overview—methods for measurement.......................................................... 2

1.5......................... Overview—energy........................................................................................ 2

1.6......................... Overview—scope 2 emissions...................................................................... 2

1.7......................... Overview—assessment of uncertainty.......................................................... 2

Division 1.1.2—Definitions and interpretation                                                                          3

1.8......................... Definitions.................................................................................................... 3

1.9......................... Interpretation............................................................................................... 14

1.9A...................... Meaning of separate instance of a source.................................................. 14

1.9B....................... Meaning of separate occurrence of a source.............................................. 14

1.10....................... Meaning of source...................................................................................... 14

Part 1.2—General                                                                                                                                          17

1.11....................... Purpose of Part........................................................................................... 17

Division 1.2.1—Measurement and standards                                                                          17

1.12....................... Measurement of emissions.......................................................................... 17

1.13....................... General principles for measuring emissions................................................ 17

1.14....................... Assessment of uncertainty.......................................................................... 17

1.15....................... Units of measurement................................................................................. 17

1.16....................... Rounding of amounts.................................................................................. 18

1.17....................... Status of standards...................................................................................... 18

Division 1.2.2—Methods                                                                                                                     19

1.18....................... Method to be used for a separate occurrence of a source............................ 19

1.18A.................... Conditions—persons preparing report must use same method................... 20

1.19....................... Temporary unavailability of method............................................................ 21

Division 1.2.3—Requirements in relation to carbon capture and storage               22

1.19A.................... Meaning of captured for permanent storage.............................................. 22

1.19B..................... Deducting carbon dioxide that is captured for permanent storage............... 22

1.19C..................... Capture from facility with multiple sources jointly generated...................... 23

1.19D.................... Capture from a source where multiple fuels consumed............................... 23

1.19E..................... Measure of quantity of carbon dioxide captured......................................... 23

1.19F..................... Volume of carbon dioxide stream—criterion A.......................................... 24

1.19G.................... Volume of carbon dioxide stream—criterion AAA.................................... 24

1.19H.................... Volumetric measurement—carbon dioxide stream not super‑compressed.. 25

1.19I...................... Volumetric measurement—supercompressed carbon dioxide stream........ 26

1.19J...................... Gas measuring equipment—requirements................................................... 27

1.19K..................... Flow devices—requirements....................................................................... 27

1.19L..................... Flow computers—requirements.................................................................. 28

1.19M.................... Gas chromatographs................................................................................... 28

1.19N.................... Volume of carbon dioxide stream—criterion BBB..................................... 28

Part 1.3—Method 4—Direct measurement of emissions                                                        29

Division 1.3.1—Preliminary                                                                                                              29

1.20....................... Overview.................................................................................................... 29

Division 1.3.2—Operation of method 4 (CEM)                                                                      30

Subdivision 1.3.2.1—Method 4 (CEM)                                                                                          30

1.21....................... Method 4 (CEM)—estimation of emissions............................................... 30

1.21A.................... Emissions from a source where multiple fuels consumed........................... 31

Subdivision 1.3.2.2—Method 4 (CEM)—use of equipment                                                      31

1.22....................... Overview.................................................................................................... 31

1.23....................... Selection of sampling positions for CEM equipment.................................. 31

1.24....................... Measurement of flow rates by CEM........................................................... 31

1.25....................... Measurement of gas concentrations by CEM.............................................. 32

1.26....................... Frequency of measurement by CEM........................................................... 32

Division 1.3.3—Operation of method 4 (PEM)                                                                       33

Subdivision 1.3.3.1—Method 4 (PEM)                                                                                          33

1.27....................... Method 4 (PEM)—estimation of emissions................................................ 33

1.27A.................... Emissions from a source where multiple fuels consumed........................... 33

1.28....................... Calculation of emission factors................................................................... 33

Subdivision 1.3.3.2—Method 4 (PEM)—use of equipment                                                      34

1.29....................... Overview.................................................................................................... 34

1.30....................... Selection of sampling positions for PEM equipment.................................. 34

1.31....................... Measurement of flow rates by PEM equipment.......................................... 34

1.32....................... Measurement of gas concentrations by PEM.............................................. 35

1.33....................... Representative data for PEM....................................................................... 35

Division 1.3.4—Performance characteristics of equipment                                             36

1.34....................... Performance characteristics of CEM or PEM equipment............................ 36

Chapter 2—Fuel combustion                                                                                                     37

Part 2.1—Preliminary                                                                                                                                  37

2.1......................... Outline of Chapter....................................................................................... 37

Part 2.2—Emissions released from the combustion of solid fuels                                     38

Division 2.2.1—Preliminary                                                                                                              38

2.2......................... Application.................................................................................................. 38

2.3......................... Available methods for estimating emissions of carbon dioxide, methane and nitrous oxide    38

Division 2.2.2—Method 1—emissions of carbon dioxide, methane and nitrous oxide from solid fuels                                                                                                                                                39

2.4......................... Method 1—solid fuels................................................................................ 39

Division 2.2.3—Method 2—emissions from solid fuels                                                       40

Subdivision 2.2.3.1—Method 2—estimating carbon dioxide using default oxidation factor     40

2.5......................... Method 2—estimating carbon dioxide using oxidation factor..................... 40

Subdivision 2.2.3.2—Method 2—estimating carbon dioxide using an estimated oxidation factor           41

2.6......................... Method 2—estimating carbon dioxide using an estimated oxidation factor. 41

Subdivision 2.2.3.3—Sampling and analysis for method 2 under sections 2.5 and 2.6     43

2.7......................... General requirements for sampling solid fuels............................................ 43

2.8......................... General requirements for analysis of solid fuels......................................... 43

2.9......................... Requirements for analysis of furnace ash and fly ash................................. 44

2.10....................... Requirements for sampling for carbon in furnace ash................................. 44

2.11....................... Sampling for carbon in fly ash.................................................................... 44

Division 2.2.4—Method 3—Solid fuels                                                                                        46

2.12....................... Method 3—solid fuels using oxidation factor or an estimated oxidation factor        46

Division 2.2.5—Measurement of consumption of solid fuels                                            48

2.13....................... Purpose of Division.................................................................................... 48

2.14....................... Criteria for measurement............................................................................. 48

2.15....................... Indirect measurement at point of consumption—criterion AA.................... 48

2.16....................... Direct measurement at point of consumption—criterion AAA................... 51

2.17....................... Simplified consumption measurements—criterion BBB............................. 51

Part 2.3—Emissions released from the combustion of gaseous fuels                              52

Division 2.3.1—Preliminary                                                                                                              52

2.18....................... Application.................................................................................................. 52

2.19....................... Available methods....................................................................................... 52

Division 2.3.2—Method 1—emissions of carbon dioxide, methane and nitrous oxide   53

2.20....................... Method 1—emissions of carbon dioxide, methane and nitrous oxide......... 53

Division 2.3.3—Method 2—emissions of carbon dioxide from the combustion of gaseous fuels             54

Subdivision 2.3.3.1—Method 2—emissions of carbon dioxide from the combustion of gaseous fuels    54

2.21....................... Method 2—emissions of carbon dioxide from the combustion of gaseous fuels     54

2.22....................... Calculation of emission factors from combustion of gaseous fuel.............. 54

Subdivision 2.3.3.2—Sampling and analysis                                                                               56

2.23....................... General requirements for sampling under method 2.................................... 56

2.24....................... Standards for analysing samples of gaseous fuels...................................... 57

2.25....................... Frequency of analysis................................................................................. 60

Division 2.3.4—Method 3—emissions of carbon dioxide released from the combustion of gaseous fuels                                                                                                                                                62

2.26....................... Method 3—emissions of carbon dioxide from the combustion of gaseous fuels     62

Division 2.3.5—Method 2—emissions of methane from the combustion of gaseous fuels           64

2.27....................... Method 2—emissions of methane from the combustion of gaseous fuels.. 64

Division 2.3.6—Measurement of quantity of gaseous fuels                                              65

2.28....................... Purpose of Division.................................................................................... 65

2.29....................... Criteria for measurement............................................................................. 65

2.30....................... Indirect measurement—criterion AA.......................................................... 65

2.31....................... Direct measurement—criterion AAA.......................................................... 65

2.32....................... Volumetric measurement—all natural gases................................................ 67

2.33....................... Volumetric measurement—super‑compressed gases.................................. 68

2.34....................... Gas measuring equipment—requirements................................................... 68

2.35....................... Flow devices—requirements....................................................................... 68

2.36....................... Flow computers—requirements.................................................................. 69

2.37....................... Gas chromatographs—requirements........................................................... 70

2.38....................... Simplified consumption measurements—criterion BBB............................. 70

Part 2.4—Emissions released from the combustion of liquid fuels                                  71

Division 2.4.1—Preliminary                                                                                                              71

2.39....................... Application.................................................................................................. 71

2.39A.................... Definition of petroleum based oils for Part 2.4........................................... 71

Subdivision 2.4.1.1—Liquid fuels—other than petroleum based oils and greases            71

2.40....................... Available methods....................................................................................... 71

Subdivision 2.4.1.2—Liquid fuels—petroleum based oils and greases                                 72

2.40A.................... Available methods....................................................................................... 72

Division 2.4.2—Method 1—emissions of carbon dioxide, methane and nitrous oxide from liquid fuels other than petroleum based oils or greases                                                    73

2.41....................... Method 1—emissions of carbon dioxide, methane and nitrous oxide......... 73

Division 2.4.3—Method 2—emissions of carbon dioxide from liquid fuels other than petroleum based oils or greases                                                                                                                          74

Subdivision 2.4.3.1—Method 2—emissions of carbon dioxide from liquid fuels other than petroleum based oils or greases                                                                                                                     74

2.42....................... Method 2—emissions of carbon dioxide from the combustion of liquid fuels 74

2.43....................... Calculation of emission factors from combustion of liquid fuel.................. 74

Subdivision 2.4.3.2—Sampling and analysis                                                                               75

2.44....................... General requirements for sampling under method 2.................................... 75

2.45....................... Standards for analysing samples of liquid fuels.......................................... 75

2.46....................... Frequency of analysis................................................................................. 78

Division 2.4.4—Method 3—emissions of carbon dioxide from liquid fuels other than petroleum based oils or greases                                                                                                                          79

2.47....................... Method 3—emissions of carbon dioxide from the combustion of liquid fuels 79

Division 2.4.5—Method 2—emissions of methane and nitrous oxide from liquid fuels other than petroleum based oils or greases                                                                            82

2.48....................... Method 2—emissions of methane and nitrous oxide from the combustion of liquid fuels       82

Division 2.4.5A—Methods for estimating emissions of carbon dioxide from petroleum based oils or greases                                                                                                                                83

2.48A.................... Method 1—estimating emissions of carbon dioxide using an estimated oxidation factor         83

2.48B..................... Method 2—estimating emissions of carbon dioxide using an estimated oxidation factor         84

2.48C..................... Method 3—estimating emissions of carbon dioxide using an estimated oxidation factor         84

Division 2.4.6—Measurement of quantity of liquid fuels                                                   85

2.49....................... Purpose of Division.................................................................................... 85

2.50....................... Criteria for measurement............................................................................. 85

2.51....................... Indirect measurement—criterion AA.......................................................... 85

2.52....................... Direct measurement—criterion AAA.......................................................... 85

2.53....................... Simplified consumption measurements—criterion BBB............................. 86

Part 2.5—Emissions released from fuel use by certain industries                                    87

2.54....................... Application.................................................................................................. 87

Division 2.5.1—Energy—petroleum refining                                                                           88

2.55....................... Application.................................................................................................. 88

2.56....................... Methods...................................................................................................... 88

Division 2.5.2—Energy—manufacture of solid fuels                                                           89

2.57....................... Application.................................................................................................. 89

2.58....................... Methods...................................................................................................... 89

Division 2.5.3—Energy—petrochemical production                                                           93

2.59....................... Application.................................................................................................. 93

2.60....................... Available methods....................................................................................... 93

2.61....................... Method 1—petrochemical production......................................................... 93

2.62....................... Method 2—petrochemical production......................................................... 95

2.63....................... Method 3—petrochemical production......................................................... 96

Part 2.6—Blended fuels                                                                                                                              97

2.64....................... Purpose....................................................................................................... 97

2.65....................... Application.................................................................................................. 97

2.66....................... Blended solid fuels...................................................................................... 97

2.67....................... Blended liquid fuels.................................................................................... 97

Part 2.7—Estimation of energy for certain purposes                                                               98

2.68....................... Amount of energy consumed without combustion...................................... 98

2.69....................... Apportionment of fuel consumed as carbon reductant or feedstock and energy       98

2.70....................... Amount of energy consumed in a cogeneration process............................. 99

2.71....................... Apportionment of energy consumed for electricity, transport and for stationary energy          99

Chapter 3—Fugitive emissions                                                                                               100

Part 3.1—Preliminary                                                                                                                                100

3.1......................... Outline of Chapter..................................................................................... 100

Part 3.2—Coal mining—fugitive emissions                                                                                  101

Division 3.2.1—Preliminary                                                                                                            101

3.2......................... Outline of Part........................................................................................... 101

Division 3.2.2—Underground mines                                                                                           102

Subdivision 3.2.2.1—Preliminary                                                                                                102

3.3......................... Application................................................................................................ 102

3.4......................... Available methods..................................................................................... 102

Subdivision 3.2.2.2—Fugitive emissions from extraction of coal                                        103

3.5......................... Method 1—extraction of coal.................................................................... 103

3.6......................... Method 4—extraction of coal.................................................................... 103

3.7......................... Estimation of emissions............................................................................ 104

3.8......................... Overview—use of equipment................................................................... 105

3.9......................... Selection of sampling positions for PEM.................................................. 105

3.10....................... Measurement of volumetric flow rates by PEM........................................ 105

3.11....................... Measurement of concentrations by PEM.................................................. 105

3.12....................... Representative data for PEM..................................................................... 106

3.13....................... Performance characteristics of equipment................................................. 106

Subdivision 3.2.2.3—Emissions released from coal mine waste gas flared                      106

3.14....................... Method 1—coal mine waste gas flared..................................................... 106

3.15....................... Method 2—emissions of carbon dioxide from coal mine waste gas flared 106

3.15A.................... Method 2—emissions of methane and nitrous oxide from coal mine waste gas flared            107

3.16....................... Method 3—coal mine waste gas flared..................................................... 107

Subdivision 3.2.2.4—Fugitive emissions from post‑mining activities                                 108

3.17....................... Method 1—post‑mining activities related to gassy mines......................... 108

Division 3.2.3—Open cut mines                                                                                                     109

Subdivision 3.2.3.1—Preliminary                                                                                                109

3.18....................... Application................................................................................................ 109

3.19....................... Available methods..................................................................................... 109

Subdivision 3.2.3.2—Fugitive emissions from extraction of coal                                        110

3.20....................... Method 1—extraction of coal.................................................................... 110

3.21....................... Method 2—extraction of coal.................................................................... 110

3.22....................... Total gas contained by gas bearing strata.................................................. 111

3.23....................... Estimate of proportion of gas content released below pit floor.................. 112

3.24....................... General requirements for sampling........................................................... 113

3.25....................... General requirements for analysis of gas and gas bearing strata............... 113

3.25A.................... Method of working out base of the low gas zone..................................... 113

3.25B..................... Further requirements for estimator............................................................ 114

3.25C..................... Default gas content for gas bearing strata in low gas zone........................ 115

3.25D.................... Requirements for estimating total gas contained in gas bearing strata....... 115

3.26....................... Method 3—extraction of coal.................................................................... 115

Subdivision 3.2.3.3—Emissions released from coal mine waste gas flared                      116

3.27....................... Method 1—coal mine waste gas flared..................................................... 116

3.28....................... Method 2—coal mine waste gas flared..................................................... 116

3.29....................... Method 3—coal mine waste gas flared..................................................... 116

Division 3.2.4—Decommissioned underground mines                                                       117

Subdivision 3.2.4.1—Preliminary                                                                                                117

3.30....................... Application................................................................................................ 117

3.31....................... Available methods..................................................................................... 117

Subdivision 3.2.4.2—Fugitive emissions from decommissioned underground mines    118

3.32....................... Method 1—decommissioned underground mines..................................... 118

3.33....................... Emission factor for decommissioned underground mines......................... 118

3.34....................... Measurement of proportion of mine that is flooded.................................. 119

3.35....................... Water flow into mine................................................................................. 119

3.36....................... Size of mine void volume.......................................................................... 119

3.37....................... Method 4—decommissioned underground mines..................................... 119

Subdivision 3.2.4.3—Fugitive emissions from coal mine waste gas flared                       120

3.38....................... Method 1—coal mine waste gas flared..................................................... 120

3.39....................... Method 2—coal mine waste gas flared..................................................... 120

3.40....................... Method 3—coal mine waste gas flared..................................................... 120

Part 3.3—Oil and natural gas—fugitive emissions                                                                   121

Division 3.3.1—Preliminary                                                                                                            121

3.40A.................... Definition of natural gas for Part 3.3....................................................... 121

3.41....................... Outline of Part........................................................................................... 121

Division 3.3.2—Oil or gas exploration                                                                                      122

Subdivision 3.3.2.1—Preliminary                                                                                                122

3.42....................... Application................................................................................................ 122

Subdivision 3.3.2.2—Oil or gas exploration (flared) emissions                                           122

3.43....................... Available methods..................................................................................... 122

3.44....................... Method 1—oil or gas exploration............................................................. 122

3.45....................... Method 2—oil or gas exploration (flared carbon dioxide emissions)........ 123

3.45A.................... Method 2A—oil or gas exploration (flared methane or nitrous oxide emissions)    124

3.46....................... Method 3—oil or gas exploration............................................................. 124

Subdivision 3.3.2.3—Oil or gas exploration—fugitive emissions from system upsets, accidents and deliberate releases from process vents                                                                              125

3.46A.................... Available methods..................................................................................... 125

3.46B..................... Method 4—vented emissions from well completions and well workovers 125

Division 3.3.3—Crude oil production                                                                                         129

Subdivision 3.3.3.1—Preliminary                                                                                                129

3.47....................... Application................................................................................................ 129

Subdivision 3.3.3.2—Crude oil production (non‑flared)—fugitive leak emissions of methane 129

3.48....................... Available methods..................................................................................... 129

3.49....................... Method 1—crude oil production (non‑flared) emissions of methane........ 130

3.50....................... Method 2—crude oil production (non‑flared) emissions of methane........ 131

Subdivision 3.3.3.3—Crude oil production (flared)—fugitive emissions of carbon dioxide, methane and nitrous oxide                                                                                                                       131

3.51....................... Available methods..................................................................................... 131

3.52....................... Method 1—crude oil production (flared) emissions.................................. 132

3.53....................... Method 2—crude oil production............................................................... 132

3.53A.................... Method 2A—crude oil production (flared methane or nitrous oxide emissions)      133

3.54....................... Method 3—crude oil production............................................................... 134

Subdivision 3.3.3.4—Crude oil production (non‑flared)—fugitive vent emissions of methane and carbon dioxide                                                                                                                                 134

3.56A.................... Available methods..................................................................................... 134

Division 3.3.4—Crude oil transport                                                                                            134

3.57....................... Application................................................................................................ 134

3.58....................... Available methods..................................................................................... 134

3.59....................... Method 1—crude oil transport.................................................................. 135

3.60....................... Method 2—fugitive emissions from crude oil transport............................ 135

Division 3.3.5—Crude oil refining                                                                                               136

3.61....................... Application................................................................................................ 136

3.62....................... Available methods..................................................................................... 136

Subdivision 3.3.5.1—Fugitive emissions from crude oil refining and from storage tanks for crude oil 137

3.63....................... Method 1—crude oil refining and storage tanks for crude oil................... 137

3.64....................... Method 2—crude oil refining and storage tanks for crude oil................... 137

Subdivision 3.3.5.2—Fugitive emissions from deliberate releases from process vents, system upsets and accidents                                                                                                                                 138

3.65....................... Method 1—fugitive emissions from deliberate releases from process vents, system upsets and accidents.................................................................................................................. 138

3.66....................... Method 4—deliberate releases from process vents, system upsets and accidents    138

Subdivision 3.3.5.3—Fugitive emissions released from gas flared from the oil refinery 139

3.67....................... Method 1—gas flared from crude oil refining........................................... 139

3.68....................... Method 2—gas flared from crude oil refining........................................... 139

3.68A.................... Method 2A—crude oil refining (flared methane or nitrous oxide emissions) 140

3.69....................... Method 3—gas flared from crude oil refining........................................... 140

Division 3.3.6—Natural gas production or processing, other than emissions that are vented or flared                                                                                                                                              141

3.70....................... Application................................................................................................ 141

3.71....................... Available methods..................................................................................... 141

3.72....................... Method 1—natural gas production and processing (other than emissions that are vented or flared)        141

3.73....................... Method 2—natural gas production and processing (other than venting and flaring)                142

Division 3.3.7—Natural gas transmission                                                                                144

3.74....................... Application................................................................................................ 144

3.75....................... Available methods..................................................................................... 144

3.76....................... Method 1—natural gas transmission......................................................... 144

3.77....................... Method 2—natural gas transmission......................................................... 144

Division 3.3.8—Natural gas distribution                                                                                  146

3.78....................... Application................................................................................................ 146

3.79....................... Available methods..................................................................................... 146

3.80....................... Method 1—natural gas distribution........................................................... 146

3.81....................... Method 2—natural gas distribution........................................................... 147

Division 3.3.9—Natural gas production or processing (emissions that are vented or flared)   149

3.82....................... Application................................................................................................ 149

3.83....................... Available methods..................................................................................... 149

Subdivision 3.3.9.1—Fugitive emissions that result from deliberate releases from process vents, system upsets and accidents                                                                                                                150

3.84....................... Method 1—emissions from system upsets, accidents and deliberate releases from process vents           150

Subdivision 3.3.9.2—Emissions released from gas flared from natural gas production and processing               150

3.85....................... Method 1—gas flared from natural gas production and processing.......... 150

3.86....................... Method 2—gas flared from natural gas production and processing.......... 151

3.86A.................... Method 2A—natural gas production and processing (flared methane or nitrous oxide emissions)          151

3.87....................... Method 3—gas flared from natural gas production and processing.......... 152

Part 3.4—Carbon capture and storage—fugitive emissions                                              153

Division 3.4.1—Preliminary                                                                                                            153

3.88....................... Outline of Part........................................................................................... 153

Division 3.4.2—Transport of captured carbon dioxide                                                    154

Subdivision 3.4.2.1—Preliminary                                                                                                154

3.89....................... Application................................................................................................ 154

3.90....................... Available methods..................................................................................... 154

Subdivision 3.4.2.2—Emissions from transport of carbon dioxide captured for permanent storage involving transfer                                                                                                                  154

3.91....................... Method 1—emissions from transport of carbon dioxide involving transfer 154

Subdivision 3.4.2.2—Emissions from transport of carbon dioxide captured for permanent storage not involving transfer                                                                                                                  155

3.92....................... Method 1—emissions from transport of carbon dioxide not involving transfer       155

Chapter 4—Industrial processes emissions                                                                156

Part 4.1—Preliminary                                                                                                                                156

4.1......................... Outline of Chapter..................................................................................... 156

Part 4.2—Industrial processes—mineral products                                                                  157

Division 4.2.1—Cement clinker production                                                                            157

4.2......................... Application................................................................................................ 157

4.3......................... Available methods..................................................................................... 157

4.4......................... Method 1—cement clinker production...................................................... 157

4.5......................... Method 2—cement clinker production...................................................... 158

4.6......................... General requirements for sampling cement clinker.................................... 159

4.7......................... General requirements for analysing cement clinker................................... 159

4.8......................... Method 3—cement clinker production...................................................... 159

4.9......................... General requirements for sampling carbonates.......................................... 161

4.10....................... General requirements for analysing carbonates......................................... 161

Division 4.2.2—Lime production                                                                                                  162

4.11....................... Application................................................................................................ 162

4.12....................... Available methods..................................................................................... 162

4.13....................... Method 1—lime production...................................................................... 162

4.14....................... Method 2—lime production...................................................................... 163

4.15....................... General requirements for sampling........................................................... 164

4.16....................... General requirements for analysis of lime................................................. 164

4.17....................... Method 3—lime production...................................................................... 164

4.18....................... General requirements for sampling........................................................... 165

4.19....................... General requirements for analysis of carbonates....................................... 166

Division 4.2.3—Use of carbonates for production of a product other than cement clinker, lime or soda ash                                                                                                                                       167

4.20....................... Application................................................................................................ 167

4.21....................... Available methods..................................................................................... 167

4.22....................... Method 1—product other than cement clinker, lime or soda ash............... 168

4.22A.................... Method 1A—product other than cement clinker, lime or soda ash for use of carbonates in clay materials.................................................................................................................. 168

4.23....................... Method 3—product other than cement clinker, lime or soda ash............... 169

4.23A.................... Method 3A—product other than cement clinker, lime or soda ash for use of carbonates in clay materials.................................................................................................................. 170

4.23B..................... General requirements for sampling clay material....................................... 171

4.23C..................... General requirements for analysing clay material...................................... 171

4.24....................... General requirements for sampling carbonates.......................................... 171

4.25....................... General requirements for analysis of carbonates....................................... 172

Division 4.2.4—Soda ash use and production                                                                        173

4.26....................... Application................................................................................................ 173

4.27....................... Outline of Division................................................................................... 173

Subdivision 4.2.4.1—Soda ash use                                                                                                173

4.28....................... Available methods..................................................................................... 173

4.29....................... Method 1—use of soda ash...................................................................... 173

Subdivision 4.2.4.2—Soda ash production                                                                                 174

4.30....................... Available methods..................................................................................... 174

4.31....................... Method 1—production of soda ash........................................................... 174

4.32....................... Method 2—production of soda ash........................................................... 176

4.33....................... Method 3—production of soda ash........................................................... 178

Division 4.2.5—Measurement of quantity of carbonates consumed and products derived from carbonates                                                                                                                      180

4.34....................... Purpose of Division.................................................................................. 180

4.35....................... Criteria for measurement........................................................................... 180

4.36....................... Indirect measurement at point of consumption or production—criterion AA 181

4.37....................... Direct measurement at point of consumption or production—criterion AAA 181

4.38....................... Acquisition or use or disposal without commercial transaction—criterion BBB      182

4.39....................... Units of measurement............................................................................... 182

Part 4.3—Industrial processes—chemical industry                                                                 183

Division 4.3.1—Ammonia production                                                                                        183

4.40....................... Application................................................................................................ 183

4.41....................... Available methods..................................................................................... 183

4.42....................... Method 1—ammonia production.............................................................. 183

4.43....................... Method 2—ammonia production.............................................................. 184

4.44....................... Method 3—ammonia production.............................................................. 185

Division 4.3.2—Nitric acid production                                                                                      186

4.45....................... Application................................................................................................ 186

4.46....................... Available methods..................................................................................... 186

4.47....................... Method 1—nitric acid production............................................................. 186

4.48....................... Method 2—nitric acid production............................................................. 187

Division 4.3.3—Adipic acid production                                                                                     188

4.49....................... Application................................................................................................ 188

4.50....................... Available methods..................................................................................... 188

Division 4.3.4—Carbide production                                                                                           189

4.51....................... Application................................................................................................ 189

4.52....................... Available methods..................................................................................... 189

Division 4.3.5—Chemical or mineral production, other than carbide production, using a carbon reductant or carbon anode                                                                                    190

4.53....................... Application................................................................................................ 190

4.54....................... Available methods..................................................................................... 190

4.55....................... Method 1—chemical or mineral production, other than carbide production, using a carbon reductant or carbon anode......................................................................................................... 190

4.56....................... Method 2—chemical or mineral production, other than carbide production, using a carbon reductant or carbon anode......................................................................................................... 192

4.57....................... Method 3—chemical or mineral production, other than carbide production, using a carbon reductant or carbon anode......................................................................................................... 193

Division 4.3.6—Sodium cyanide production                                                                           194

4.58....................... Application................................................................................................ 194

4.59....................... Available methods..................................................................................... 194

Part 4.4—Industrial processes—metal industry                                                                        195

Division 4.4.1—Iron, steel or other metal production using an integrated metalworks               195

4.63....................... Application................................................................................................ 195

4.64....................... Purpose of Division.................................................................................. 195

4.65....................... Available methods for production of a metal from an integrated metalworks 195

4.66....................... Method 1—production of a metal from an integrated metalworks............ 196

4.67....................... Method 2—production of a metal from an integrated metalworks............ 197

4.68....................... Method 3—production of a metal from an integrated metalworks............ 198

Division 4.4.2—Ferroalloys production                                                                                    199

4.69....................... Application................................................................................................ 199

4.70....................... Available methods..................................................................................... 199

4.71....................... Method 1—ferroalloy metal...................................................................... 199

4.72....................... Method 2—ferroalloy metal...................................................................... 201

4.73....................... Method 3—ferroalloy metal...................................................................... 202

Division 4.4.3—Aluminium production (carbon dioxide emissions)                           203

4.74....................... Application................................................................................................ 203

Sudivision 4.4.3.1—Aluminium—emissions from consumption of carbon anodes in aluminium production       203

4.75....................... Available methods..................................................................................... 203

4.76....................... Method 1—aluminium (carbon anode consumption)................................ 203

4.77....................... Method 2—aluminium (carbon anode consumption)................................ 204

4.78....................... Method 3—aluminium (carbon anode consumption)................................ 204

Subdivision 4.4.3.2—Aluminium—emissions from production of baked carbon anodes in aluminium production                                                                                                                                 204

4.79....................... Available methods..................................................................................... 204

4.80....................... Method 1—aluminium (baked carbon anode production)......................... 205

4.81....................... Method 2—aluminium (baked carbon anode production)......................... 205

4.82....................... Method 3—aluminium (baked carbon anode production)......................... 206

Division 4.4.4—Aluminium production (perfluoronated carbon compound emissions)                207

4.83....................... Application................................................................................................ 207

Subdivision 4.4.4.1—Aluminium—emissions of tetrafluoromethane in aluminium production               207

4.84....................... Available methods..................................................................................... 207

4.85....................... Method 1—aluminium (tetrafluoromethane)............................................. 207

4.86....................... Method 2—aluminium (tetrafluoromethane)............................................. 207

4.87....................... Method 3—aluminium (tetrafluoromethane)............................................. 207

Subdivision 4.4.4.2—Aluminium—emissions of hexafluoroethane in aluminium production  208

4.88....................... Available methods..................................................................................... 208

4.89....................... Method 1—aluminium production (hexafluoroethane)............................. 208

4.90....................... Method 2—aluminium production (hexafluoroethane)............................. 208

4.91....................... Method 3—aluminium production (hexafluoroethane)............................. 208

Division 4.4.5—Other metals production                                                                                 209

4.92....................... Application................................................................................................ 209

4.93....................... Available methods..................................................................................... 209

4.94....................... Method 1—other metals............................................................................ 209

4.95....................... Method 2—other metals............................................................................ 211

4.96....................... Method 3—other metals............................................................................ 212

Part 4.5—Industrial processes—emissions of hydrofluorocarbons and sulphur hexafluoride gases     213

4.97....................... Application................................................................................................ 213

4.98....................... Available method...................................................................................... 213

4.99....................... Meaning of hydrofluorocarbons............................................................... 213

4.100..................... Meaning of synthetic gas generating activities.......................................... 213

4.101..................... Reporting threshold................................................................................... 214

4.102..................... Method 1................................................................................................... 214

4.103..................... Method 2................................................................................................... 215

4.104..................... Method 3................................................................................................... 215

Chapter 5—Waste                                                                                                                                217

Part 5.1—Preliminary                                                                                                                                217

5.1......................... Outline of Chapter..................................................................................... 217

Part 5.2—Solid waste disposal on land                                                                                            218

Division 5.2.1—Preliminary                                                                                                            218

5.2......................... Application................................................................................................ 218

5.3......................... Available methods..................................................................................... 218

Division 5.2.2—Method 1—emissions of methane released from landfills             220

5.4......................... Method 1—methane released from landfills (other than from flaring of methane)   220

5.4A...................... Estimates for calculating CH4gen................................................................ 221

5.4B....................... Equation—change in quantity of particular opening stock at landfill for calculating CH4gen    222

5.4C....................... Equation—quantity of closing stock at landfill in particular reporting year 222

5.4D...................... Equation—quantity of methane generated by landfill for calculating CH4gen 223

5.5......................... Criteria for estimating tonnage of total solid waste.................................... 225

5.6......................... Criterion A................................................................................................ 225

5.7......................... Criterion AAA.......................................................................................... 225

5.8......................... Criterion BBB........................................................................................... 226

5.9......................... Composition of solid waste....................................................................... 226

5.10....................... General waste streams............................................................................... 226

5.10A.................... Homogenous waste streams...................................................................... 228

5.11....................... Waste mix types........................................................................................ 229

5.11A.................... Certain waste to be deducted from waste received at landfill when estimating waste disposed in landfill.................................................................................................................. 232

5.12....................... Degradable organic carbon content........................................................... 232

5.13....................... Opening stock of degradable organic carbon for the first reporting period 233

5.14....................... Methane generation constants—(k values)................................................ 234

5.14A.................... Fraction of degradable organic carbon dissimilated (DOCF)..................... 237

5.14B..................... Methane correction factor (MCF) for aerobic decomposition................... 238

5.14C..................... Fraction by volume generated in landfill gas that is methane (F)............... 238

5.14D.................... Number of months before methane generation at landfill commences....... 238

Division 5.2.3—Method 2—emissions of methane released from landfills             239

Subdivision 5.2.3.1—methane released from landfills                                                           239

5.15....................... Method 2—methane released by landfill (other than from flaring of methane)....... 239

5.15A.................... Equation—change in quantity of particular opening stock at landfill for calculating CH4gen    242

5.15B..................... Equation—quantity of closing stock at landfill in particular reporting year 243

5.15C..................... Equation—collection efficiency limit at landfill in particular reporting year 243

Subdivision 5.2.3.2—Requirements for calculating the methane generation constant (k) 244

5.16....................... Procedures for selecting representative zone............................................. 244

5.17....................... Site plan—preparation and requirements................................................... 244

5.17AA................. Sub‑facility zones—maximum number and requirements......................... 244

5.17A.................... Representative zones—selection and requirements................................... 245

5.17B..................... Independent verification............................................................................ 246

5.17C..................... Estimation of waste and degradable organic content in representative zone 246

5.17D.................... Estimation of gas collected at the representative zone................................ 246

5.17E..................... Estimating methane generated but not collected in the representative zone 247

5.17F..................... Walkover survey....................................................................................... 247

5.17G.................... Installation of flux boxes in representative zone........................................ 248

5.17H.................... Flux box measurements............................................................................ 249

5.17I...................... When flux box measurements must be taken............................................ 250

5.17J...................... Restrictions on taking flux box measurements.......................................... 251

5.17K..................... Frequency of measurement....................................................................... 251

5.17L..................... Calculating the methane generation constant (ki) for certain waste mix types 251

Division 5.2.4—Method 3—emissions of methane released from solid waste at landfills            254

5.18....................... Method 3—methane released from solid waste at landfills (other than from flaring of methane)             254

Division 5.2.5—Solid waste at landfills—Flaring                                                                 255

5.19....................... Method 1—landfill gas flared................................................................... 255

5.20....................... Method 2—landfill gas flared................................................................... 255

5.21....................... Method 3—landfill gas flared................................................................... 255

Division 5.2.6—Biological treatment of solid waste                                                           256

5.22....................... Method 1—emissions of methane and nitrous oxide from biological treatment of solid waste at a landfill.................................................................................................................. 256

5.22AA................. Method 4—biological treatment of solid waste at the landfill.................... 256

Part 5.3—Wastewater handling (domestic and commercial)                                             257

Division 5.3.1—Preliminary                                                                                                            257

5.23....................... Application................................................................................................ 257

5.24....................... Available methods..................................................................................... 257

Division 5.3.2—Method 1—methane released from wastewater handling (domestic and commercial)                                                                                                                                              258

5.25....................... Method 1—methane released from wastewater handling (domestic and commercial)              258

Division 5.3.3—Method 2—methane released from wastewater handling (domestic and commercial)                                                                                                                                              262

5.26....................... Method 2—methane released from wastewater handling (domestic and commercial)              262

5.26A.................... Requirements relating to sub‑facilities....................................................... 266

5.27....................... General requirements for sampling under method 2.................................. 266

5.28....................... Standards for analysis............................................................................... 267

5.29....................... Frequency of sampling and analysis......................................................... 267

Division 5.3.4—Method 3—methane released from wastewater handling (domestic and commercial)                                                                                                                                              268

5.30....................... Method 3—methane released from wastewater handling (domestic and commercial)              268

Division 5.3.5—Method 1—emissions of nitrous oxide released from wastewater handling (domestic and commercial)                                                                                                                   269

5.31....................... Method 1—nitrous oxide released from wastewater handling (domestic and commercial)      269

Division 5.3.6—Method 2—emissions of nitrous oxide released from wastewater handling (domestic and commercial)                                                                                                                   272

5.32....................... Method 2—nitrous oxide released from wastewater handling (domestic and commercial)      272

5.33....................... General requirements for sampling under method 2.................................. 272

5.34....................... Standards for analysis............................................................................... 273

5.35....................... Frequency of sampling and analysis......................................................... 273

Division 5.3.7—Method 3—emissions of nitrous oxide released from wastewater handling (domestic and commercial)                                                                                                                   274

5.36....................... Method 3—nitrous oxide released from wastewater handling (domestic and commercial)      274

Division 5.3.8—Wastewater handling (domestic and commercial)—Flaring       275

5.37....................... Method 1—Flaring of methane in sludge biogas from wastewater handling (domestic and commercial).................................................................................................................. 275

5.38....................... Method 2—flaring of methane in sludge biogas....................................... 275

5.39....................... Method 3—flaring of methane in sludge biogas....................................... 275

Part 5.4—Wastewater handling (industrial)                                                                                276

Division 5.4.1—Preliminary                                                                                                            276

5.40....................... Application................................................................................................ 276

5.41....................... Available methods..................................................................................... 276

Division 5.4.2—Method 1—methane released from wastewater handling (industrial) 277

5.42....................... Method 1—methane released from wastewater handling (industrial)........ 277

Division 5.4.3—Method 2—methane released from wastewater handling (industrial) 281

5.43....................... Method 2—methane released from wastewater handling (industrial)........ 281

5.44....................... General requirements for sampling under method 2.................................. 281

5.45....................... Standards for analysis............................................................................... 281

5.46....................... Frequency of sampling and analysis......................................................... 282

Division 5.4.4—Method 3—methane released from wastewater handling (industrial) 283

5.47....................... Method 3—methane released from wastewater handling (industrial)........ 283

Division 5.4.5—Wastewater handling (industrial)—Flaring of methane in sludge biogas          284

5.48....................... Method 1—flaring of methane in sludge biogas....................................... 284

5.49....................... Method 2—flaring of methane in sludge biogas....................................... 284

5.50....................... Method 3—flaring of methane in sludge biogas....................................... 284

Part 5.5—Waste incineration                                                                                                                285

5.51....................... Application................................................................................................ 285

5.52....................... Available methods—emissions of carbon dioxide from waste incineration 285

5.53....................... Method 1—emissions of carbon dioxide released from waste incineration 285

Chapter 6—Energy                                                                                                                            287

Part 6.1—Production                                                                                                                                 287

6.1......................... Purpose..................................................................................................... 287

6.2......................... Quantity of energy produced..................................................................... 287

6.3......................... Energy content of fuel produced............................................................... 288

Part 6.2—Consumption                                                                                                                            289

6.4......................... Purpose..................................................................................................... 289

6.5......................... Energy content of energy consumed......................................................... 289

Chapter 7—Scope 2 emissions                                                                                                291

7.1......................... Application................................................................................................ 291

7.2......................... Method 1—purchase of electricity from main electricity grid in a State or Territory                291

7.3......................... Method 1—purchase of electricity from other sources.............................. 292

Chapter 8—Assessment of uncertainty                                                                         293

Part 8.1—Preliminary                                                                                                                                293

8.1......................... Outline of Chapter..................................................................................... 293

Part 8.2—General rules for assessing uncertainty                                                                   294

8.2......................... Range for emission estimates.................................................................... 294

8.3......................... Uncertainty to be assessed having regard to all facilities........................... 294

Part 8.3—How to assess uncertainty when using method 1                                               295

8.4......................... Purpose of Part......................................................................................... 295

8.5......................... General rules about uncertainty estimates for emissions estimates using method 1  295

8.6......................... Assessment of uncertainty for estimates of carbon dioxide emissions from combustion of fuels            295

8.7......................... Assessment of uncertainty for estimates of methane and nitrous oxide emissions from combustion of fuels.................................................................................................................. 298

8.8......................... Assessment of uncertainty for estimates of fugitive emissions................. 299

8.9......................... Assessment of uncertainty for estimates of emissions from industrial process sources           299

8.10....................... Assessment of uncertainty for estimates of emissions from waste............ 300

8.11....................... Assessing uncertainty of emissions estimates for a source by aggregating parameter uncertainties         301

8.12....................... Assessing uncertainty of emissions estimates for a facility....................... 302

8.13....................... Assessing uncertainty of emissions estimates for a registered corporation 302

Part 8.4—How to assess uncertainty levels when using method 2, 3 or 4                  303

8.14....................... Purpose of Part......................................................................................... 303

8.15....................... Rules for assessment of uncertainty using method 2, 3 or 4..................... 303

Chapter 9—Application and transitional provisions                                     304

9.1......................... Amendments made by Schedule 1 to the National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2014 (No. 1).................................................. 304

9.2......................... Amendments made by Schedule 2 to the National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2014 (No. 1).................................................. 304

9.3......................... Amendments made by the National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2015 (No. 1)...................................................................... 304

9.4......................... Amendments made by the National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2015 (No. 2)...................................................................... 304

Schedule 1—Energy content factors and emission factors                       305

Part 1—Fuel combustion—solid fuels and certain coal‑based products                    305

Part 2—Fuel combustion—gaseous fuels                                                                                       307

Part 3—Fuel combustion—liquid fuels and certain petroleum‑based products for stationary energy purposes                                                                                                                                          308

Part 4—Fuel combustion—fuels for transport energy purposes                                    310

Division 4.1—Fuel combustion—fuels for transport energy purposes                     310

Division 4.2—Fuel combustion—liquid fuels for transport energy purposes for post‑2004 vehicles    311

Division 4.3—Fuel combustion—liquid fuels for transport energy purposes for certain trucks              312

Part 5—Consumption of fuels for non‑energy product purposes                                  313

Part 6—Indirect (scope 2) emission factors from consumption of purchased electricity from grid        314

Part 7—Fuel combustion—other fuels                                                                                            315

Schedule 2—Standards and frequency for analysing energy content factor etc for solid fuels                                                                                                                                     316

Schedule 3—Carbon content factors                                                                               320

Part 1—Solid fuels and certain coal‑based products                                                              320

Part 2—Gaseous fuels                                                                                                                                321

Part 3—Liquid fuels and certain petroleum‑based products                                            322

Part 4—Petrochemical feedstocks and products                                                                       323

Part 5—Carbonates                                                                                                                                    324

Endnotes                                                                                                                                                             325

Endnote 1—About the endnotes                                                                                                    325

Endnote 2—Abbreviation key                                                                                                        326

Endnote 3—Legislation history                                                                                                     327

Endnote 4—Amendment history                                                                                                   328

Endnote 5—Misdescribed amendments                                                                                     348

National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2009 (No. 1) 348

National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2012 (No. 1) 348


Chapter 1General

Part 1.1Preliminary

1.1  Name of Determination

                   This Determination is the National Greenhouse and Energy Reporting (Measurement) Determination 2008.

1.2  Commencement

                   This Determination commences on 1 July 2008.

Division 1.1.1Overview

1.3  Overview—general

             (1)  This determination is made under sections 7B and 10 of the National Greenhouse and Energy Reporting Act 2007. It provides for the measurement of the following:

                     (a)  greenhouse gas emissions arising from the operation of facilities;

                     (b)  the production of energy arising from the operation of facilities;

                     (c)  the consumption of energy arising from the operation of facilities;

                     (d)  potential greenhouse gas emissions embodied in an amount of designated fuel.

             (2)  This determination deals with scope 1 emissions, scope 2 emissions and potential greenhouse gas emissions embodied in an amount of designated fuel.

Note 1:       Facility has the meaning given by section 9 of the Act.

Note 2:       Potential greenhouse gas emissions embodied in an amount of designated fuel has the meaning given by section 7B of the Act.

Note 3:       Designated fuel has the meaning given by the Clean Energy Act 2011.

Note 4:       Scope 1 emission and scope 2 emission have the meaning given by section 10 of the Act (also see, respectively, regulations 2.23 and 2.24 of the Regulations).

             (3)  There are 4 categories of scope 1 emissions dealt with in this Determination.

Note:          This Determination does not deal with emissions released directly from land management.

             (4)  The categories of scope 1 emissions are:

                     (a)  fuel combustion, which deals with emissions released from fuel combustion (see Chapter 2); and

                     (b)  fugitive emissions from fuels, which deals with emissions mainly released from the extraction, production, processing and distribution of fossil fuels (see Chapter 3); and

                     (c)  industrial processes emissions, which deals with emissions released from the consumption of carbonates and the use of fuels as feedstock or as carbon reductants, and the emission of synthetic gases in particular cases (see Chapter 4); and

                     (d)  waste emissions, which deals with emissions mainly released from the decomposition of organic material in landfill or wastewater handling facilities (see Chapter 5).

             (5)  Each of the categories has various subcategories.

1.4  Overview—methods for measurement

             (1)  This Determination provides methods and criteria for the measurement of the matters mentioned in subsection 1.3(1).

             (2)  For scope 1 emissions or scope 2 emissions:

                     (a)  method 1 (known as the default method) is derived from the National Greenhouse Accounts methods and is based on national average estimates; and

                     (b)  method 2 is generally a facility specific method using industry practices for sampling and Australian or equivalent standards for analysis; and

                     (c)  method 3 is generally the same as method 2 but is based on Australian or equivalent standards for both sampling and analysis; and

                     (d)  method 4 provides for facility specific measurement of emissions by continuous or periodic emissions monitoring.

Note:          Method 4, that applies as indicated by provisions of this Determination, is as set out in Part 1.3.

1.5  Overview—energy

                   Chapter 6 deals with the estimation of the production and consumption of energy.

1.6  Overview—scope 2 emissions

                   Chapter 7 deals with scope 2 emissions.

1.7  Overview—assessment of uncertainty

                   Chapter 8 deals with the assessment of uncertainty.

Division 1.1.2Definitions and interpretation

1.8  Definitions

                   In this Determination:

2006 IPCC Guidelines means the 2006 IPCC Guidelines for National Greenhouse Gas Inventories published by the IPCC.

ACARP Guidelines means the document entitled Guidelines for the Implementation of NGER Method 2 or 3 for Open Cut Coal Mine Fugitive GHG Emissions Reporting (C20005), published by the Australian Coal Association Research Program in December 2011.

accredited laboratory means a laboratory accredited by the National Association of Testing Authorities or an equivalent member of the International Laboratory Accreditation Cooperation in accordance with AS ISO/IEC 17025:2005, and for the production of calibration gases, accredited to ISO Guide 34:2000.

Act means the National Greenhouse and Energy Reporting Act 2007.

active gas collection means a system of wells and pipes that collect landfill gas through the use of vacuums or pumps.

alternative waste treatment activity means an activity that:

                     (a)  accepts and processes mixed waste using:

                              (i)  mechanical processing; and

                             (ii)  biological or thermal processing; and

                     (b)  extracts recyclable materials from the mixed waste.

alternative waste treatment residue means the material that remains after waste has been processed and organic rich material has been removed by physical screening or sorting by an alternative waste treatment activity that produces compost, soil conditioners or mulch in accordance with:

                     (a)  State or Territory legislation; or

                     (b)  Australian Standard AS 4454:2012.

ANZSIC industry classification and code means an industry classification and code for that classification published in the Australian and New Zealand Standard Industrial Classification (ANZSIC), 2006.

APHA followed by a number means a method of that number issued by the American Public Health Association and, if a date is included, of that date.

API Compendium means the document entitled Compendium of Greenhouse Gas Emissions Methodologies for the Oil and Natural Gas Industry, published in August 2009 by the American Petroleum Institute.

Note:          The API Compendium is available at www.api.org.

applicable State or Territory legislation, for an underground mine, means a law of a State or Territory in which the mine is located that relates to coal mining health and safety, including such a law that prescribes performance‑based objectives, as in force on 1 July 2008.

Note:          Applicable State or Territory legislation includes:

·      Coal Mine Health and Safety Act 2002 (NSW) and the Coal Mine Health and Safety Regulation 2006 (NSW)

·      Coal Mining Safety and Health Act 1999 (Qld) and the Coal Mining Safety and Health Regulation 2001 (Qld).

appropriate standard, for a matter or circumstance, means an Australian standard or an equivalent international standard that is appropriate for the matter or circumstance.

appropriate unit of measurement, in relation to a fuel type, means:

                     (a)  for solid fuels—tonnes; and

                     (b)  for gaseous fuels—metres cubed or gigajoules, except for liquefied natural gas which is kilolitres; and

                     (c)  for liquid fuels other than those mentioned in paragraph (d)—kilolitres; and

                     (d)  for liquid fuels of one of the following kinds—tonnes:

                              (i)  crude oil, including crude oil condensates, other natural gas liquids;

                             (ii)  petroleum coke;

                            (iii)  refinery gas and liquids;

                            (iv)  refinery coke;

                             (v)  bitumen:

                            (vi)  waxes;

                           (vii)  carbon black if used as petrochemical feedstock;

                          (viii)  ethylene if used as a petrochemical feedstock;

                            (ix)  petrochemical feedstock mentioned in item 57 of Schedule 1 to the Regulations.

AS or Australian standard followed by a number (for example, AS 4323.1—1995) means a standard of that number issued by Standards Australia Limited and, if a date is included, of that date.

ASTM followed by a number (for example, ASTM D6347/D6347M‑99) means a standard of that number issued by ASTM International and, if a date is included, of that date.

Australian legal unit of measurement has the meaning given by the National Measurement Act 1960.

base of the low gas zone means the part of the low gas zone worked out in accordance with section 3.25A.

basin means a geological basin named in the Australian Geological Provinces Database.

Note:          The Australian Geological Provinces Database is available at www.ga.gov.au.

biogenic carbon fuel means energy that is:

                     (a)  derived from plant and animal material, such as wood from forests, residues from agriculture and forestry processes and industrial, human or animal wastes; and

                     (b)  not embedded in the earth for example, like coal oil or natural gas.

blended fuel means fuel that is a blend of fossil and biogenic carbon fuels.

briquette means an agglomerate formed by compacting a particulate material in a briquette press, with or without added binder material.

calibrated to a measurement requirement, for measuring equipment, means calibrated to a specific characteristic, for example a unit of weight, with the characteristic being traceable to:

                     (a)  a measurement requirement provided for under the National Measurement Act 1960 or any instrument under that Act for that equipment; or

                     (b)  a measurement requirement under an equivalent standard for that characteristic.

captured for permanent storage, in relation to carbon dioxide, has the meaning given by section 1.19A.

carbon dioxide stream means a stream of gaseous substances that consists overwhelmingly of carbon dioxide that is captured for permanent storage.

CEM or continuous emissions monitoring means continuous monitoring of emissions in accordance with Part 1.3.

CEN/TS followed by a number (for example, CEN/TS 15403) means a technical specification (TS) of that number issued by the European Committee for Standardization and, if a date is included, of that date.

CO2‑e means carbon dioxide equivalence.

coal seam methane has the same meaning as in the Regulations.

COD or chemical oxygen demand means the total material available for chemical oxidation (both biodegradable and non‑biodegradable) measured in tonnes.

compressed natural gas has the meaning given by the Regulations.

core sample means a cylindrical sample of the whole or part of a strata layer, or series of strata layers, obtained from drilling using a coring barrel with a diameter of between 50 mm and 2 000 mm.

crude oil condensates has the meaning given by the Regulations.

crude oil transport means the transportation of marketable crude oil to heavy oil upgraders and refineries by means that include the following:

                     (a)  pipelines;

                     (b)  marine tankers;

                     (c)  tank trucks; 

                     (d)  rail cars.

designated fuel has the same meaning as in the Clean Energy Act 2011.

documentary standard means a published standard that sets out specifications and procedures designed to ensure that a material or other thing is fit for purpose and consistently performs in the way it was intended by the manufacturer of the material or thing.

domain, of an open cut mine, means an area, volume or coal seam in which the variability of gas content and the variability of gas composition in the open cut mine have a consistent relationship with other geological, geophysical or spatial parameters located in the area, volume or coal seam.

dry wood has the meaning given by the Regulations.

efficiency method has the meaning given by subsection 2.70(2).

EN followed by a number (for example, EN 15403) means a standard of that number issued by the European Committee for Standardization and, if a date is included, of that date.

enclosed composting activity means a semi‑enclosed or enclosed alternative waste or composting technology where the composting process occurs within a reactor that:

                     (a)  has hard walls or doors on all 4 sides; and

                     (b)  sits on a floor; and

                     (c)  has a permanent positive or negative aeration system.

energy content factor, for a fuel, means gigajoules of energy per unit of the fuel measured as gross calorific value.

estimator, of fugitive emissions from an open cut mine using method 2 under section 3.21 or method 3 under section 3.26, means:

                     (a)  an individual who has the minimum qualifications of an estimator set out in the ACARP Guidelines; or

                     (b)  individuals who jointly have those minimum qualifications.

extraction area, in relation to an open cut mine, is the area of the mine from which coal is extracted.

feedstock has the meaning given by the Regulations.

ferroalloy has the meaning given by subsection 4.69(2).

flaring means the combustion of fuel for a purpose other than producing energy.

Example:    The combustion of methane for the purpose of complying with health, safety and environmental requirements.

fuel means a substance mentioned in column 2 of an item in Schedule 1 to the Regulations other than a substance mentioned in items 58 to 66.

fuel oil has the meaning given by the Regulations.

fugitive emissions has the meaning given by the Clean Energy Regulations 2011.

gas bearing strata is coal and carbonaceous rock strata:

                     (a)  located in an open cut mine; and

                     (b)  that has a relative density of less than 1.95 g/cm3.

gaseous designated fuel means liquefied natural gas.

gaseous fuel means a fuel mentioned in column 2 of items 17 to 30 of Schedule 1 to the Regulations.

gas stream means the flow of gas subject to monitoring under Part 1.3.

gassy mine means an underground mine that has at least 0.1% methane in the mine’s return ventilation.

Global Warming Potential means, in relation to a greenhouse gas mentioned in column 2 of an item in the table in regulation 2.02 of the Regulations, the value mentioned in column 4 for that item.

GPA followed by a number means a standard of that number issued by the Gas Processors Association and, if a date is included, of that date.

green and air dried wood has the meaning given by the Regulations.

GST group has the same meaning as in the Fuel Tax Act 2006.

GST joint venture has the same meaning as in the Fuel Tax Act 2006.

higher method has the meaning given by subsection 1.18(5).

hydrofluorocarbons has the meaning given by section 4.99.

ideal gas law means the state of a hypothetical ideal gas in which the amount of gas is determined by its pressure, volume and temperature.

IEC followed by a number (for example, IEC 17025:2005) means a standard of that number issued by the International Electrotechnical Commission and, if a date is included, of that date.

incidental, for an emission, has the meaning given by subregulation 4.27(5) of the Regulations.

independent expert, in relation to an operator of a landfill, means a person who:

                     (a)  is independent of the operator of the landfill; and

                     (b)  has relevant expertise in estimating or monitoring landfill surface gas.

inert waste means waste materials that contain no more than a negligible volume of degradable organic carbon and includes the following waste:

                     (a)  concrete;

                     (b)  metal;

                     (c)  plastic;

                     (d)  glass;

                     (e)  asbestos concrete;

                      (f)  soil.

integrated metalworks has the meaning given by subsection 4.64(2).

invoice includes delivery record.

invoice equivalent means a document (including an electronic document) or series of documents that are intended to be used as evidence of natural gas supply (for example, for commercial or taxation purposes) and from which the following information can be ascertained:

                     (a)  the identity of the natural gas supplier;

                     (b)  the identity of the recipient of natural gas;

                     (c)  the amount of natural gas supplied;

                     (d)  the period to which the supply relates;

                     (e)  the date the document was issued.

Example:    Where natural gas is supplied directly from a natural gas transmission pipeline, volume reports provided by the pipeline operator or wholesale supplier will be invoice equivalents.

IPCC is short for Intergovernmental Panel on Climate Change established by the World Meteorological Organization and the United Nations Environment Programme.

ISO followed by a number (for example, ISO 10396:2007) means a standard of that number issued by the International Organization of Standardization and, if a date is included, of that date.

legacy waste means waste deposited at a landfill before 1 July 2012.

liquefied natural gas has the same meaning as in the Regulations.

liquefied petroleum gas has the same meaning as in the Regulations.

liquid designated fuel means:

                     (a)  liquefied petroleum gas; and

                     (b)  specified taxable fuel.

liquid fuel means a fuel mentioned in column 2 of items 31 to 54 of Schedule 1 to the Regulations.

lower method has the meaning given by subsection 1.18(6).

low gas zone means the part of the gas bearing strata of an open cut mine:

                     (a)  that is located immediately below the original surface of the mine and above the base of the low gas zone; and

                     (b)  the area of which is worked out by working out the base of the low gas zone.

main electricity grid has the meaning given by subsection 7.2(4).

marketable crude oil includes:

                     (a)  conventional crude oil; and

                     (b)  heavy crude oil; and

                     (c)  synthetic crude oil; and

                     (d)  bitumen.

method means a method specified in this determination for estimating:

                     (a)  emissions released from the operation of a facility in relation to a source; or

                     (b)  the potential emissions embodied in an amount of designated fuel.

municipal materials has the meaning given by the Regulations.

municipal solid waste class I means waste from domestic premises, council collections and other municipal sources where:

                     (a)  the collection of organic waste on a regular basis in a dedicated bin is not provided to residents of the municipality as a standard practice; or

                     (b)  the collection of organic waste on a regular basis in a dedicated bin provided to residents of the municipality cannot be confirmed as standard practice.

municipal solid waste class II means waste from domestic premises, council collections and other municipal sources where a bin dedicated for garden waste is:

                     (a)  provided to residents of the municipality as a standard practice; and

                     (b)  collected on a regular basis.

N/A means not available.

National Greenhouse Accounts means the set of national greenhouse gas inventories, including the National Inventory Report 2005, submitted by the Australian government to meet its reporting commitments under the United Nations Framework Convention on Climate Change and the 1997 Kyoto Protocol to that Convention.

natural gas has the meaning given by the Regulations.

natural gas distribution is distribution of natural gas through low‑pressure pipelines with pressure of 1 050 kilopascals or less.

natural gas liquids has the meaning given by the Regulations.

natural gas supply pipeline has the meaning given by the Clean Energy Act 2011.

natural gas transmission is transmission of natural gas through high‑pressure pipelines with pressure greater than 1 050 kilopascals.

netted out number has:

                     (a)  in relation to liquefied petroleum gas and liquefied natural gas imported into Australia, the same meaning as in section 36B of the Clean Energy Act 2011 and any regulations made under that section; and

                     (b)  in relation to liquefied petroleum gas and liquefied natural gas manufactured or produced in Australia, the same meaning as in section 36C of the Clean Energy Act 2011 and any regulations made under that section; and

                     (c)  in relation to liquefied petroleum gas and liquefied natural gas supplied to a person who quotes an OTN, the same meaning as in section 36D of the Clean Energy Act 2011 and any regulations made under that section.

non‑gassy mine means an underground mine that has less than 0.1% methane in the mine’s return ventilation.

non‑legacy waste means waste deposited at a landfill on or after 1 July 2012.

open cut mine:

                     (a)  means a mine in which the overburden is removed from coal seams to allow coal extraction by mining that is not underground mining; and

                     (b)  for method 2 in section 3.21 or method 3 in section 3.26—includes a mine of the kind mentioned in paragraph (a):

                              (i)  for which an area has been established but coal production has not commenced; or

                             (ii)  in which coal production has commenced.

Opt‑in Scheme has the same meaning as in the Clean Energy Act 2011.

OTN has the same meaning as in the Clean Energy Act 2011.

PEM or periodic emissions monitoring means periodic monitoring of emissions in accordance with Part 1.3.

Perfluorocarbon protocol means the Protocol for Measurement of Tetrafluoromethane (CF4) and Hexafluoroethane (C2F6) Emissions from Primary Aluminium Production published by the United States Environmental Protection Agency and the International Aluminium Institute.

petroleum based greases has the meaning given by regulation 1.03 of the Regulations.

petroleum based oils has the meaning given by the Regulations.

petroleum coke has the meaning given by the Regulations.

phytocap means an evapotranspiration landfill capping system that makes use of soil and vegetation to store and release surface water.

point of liability means:

                     (a)  for liquefied natural gas (LNG) or liquefied petroleum gas (LPG) that was produced in or imported into Australia—the point at which the LNG or LPG is entered for home consumption; or

                     (b)  for LNG or LPG that was supplied in association with an OTN quotation or misuse of an OTN quotation—the point at which the LNG or LPG is supplied; or

                     (c)  for LNG or LPG that is attributable to a netted out number, but not an OTN quotation—the point at which the LNG or LPG is used; or

                     (d)  for acquisition, importation or manufacture of specified taxable fuel by a participant in the Opt‑in Scheme:

                              (i)  for fuel that is used by the participant that has been entered for home consumption—the point at which the fuel is entered for home consumption; or

                             (ii)  if subparagraph (i) does not apply—the point at which the fuel is acquired.

post‑mining activities, in relation to a mine, is the handling, stockpiling, processing and transportation of coal extracted from the mine.

primary wastewater treatment plant:

                     (a)  means a treatment facility at which wastewater undergoes physical screening, degritting and sedimentation; and

                     (b)  does not include a treatment facility at which any kind of nitrification or denitrification treatment process occurs.

principal activity, in relation to a facility, means the activity that:

                     (a)  results in the production of a product or service that is produced for sale on the market; and

                     (b)  produces the most value for the facility out of any of the activities forming part of the facility.

pyrolysis of coal means the decomposition of coal by heat.

raw sugar has the meaning given by Chapter 17 of Section IV of Schedule 3 to the Customs Tariff Act 1995.

reductant:

                     (a)  means a reducing agent or substance:

                              (i)  that causes another substance to undergo reduction; and

                             (ii)  that is oxidised while causing the substance to undergo reduction; and

                     (b)  does not include fuels that are combusted only to produce energy.

refinery gases and liquids has the meaning given by the Regulations.

Regulations means the National Greenhouse and Energy Reporting Regulations 2008.

relevant person means a person mentioned in paragraph 1.19A(a), (b), (c), (d), (e) or (f).

run‑of‑mine coal means coal that is produced by mining operations before screening, crushing or preparation of the coal has occurred.

scope 1 emissions has the same meaning as in the Regulations.

scope 2 emissions has the same meaning as in the Regulations.

separate instance of a source has the meaning given by section 1.9A.

separate occurrence of a source has the meaning given by section 1.9B.

shale gas means a substance that:

                     (a)  consists of:

                              (i)  naturally occurring hydrocarbons; or

                             (ii)  a naturally occurring mixture of hydrocarbons and non‑hydrocarbons; and

                     (b)  consists mainly of methane; and

                     (c)  is drained from shale formations.

shredder flock means the residual waste generated from the process of scrap metal processing that ends up in landfill.

sludge biogas has the meaning given by the Regulations.

sludge lagoon means a component of a wastewater treatment system that:

                     (a)  is used to stabilise and dry excess or wasted sludge from the liquid or solid phase treatment train of a wastewater treatment plant; and

                     (b)  involves biodegradation of COD in the form of sludge and the use of ambient climatic factors to reduce the moisture content of the sludge.

solid fuel means a fuel mentioned in column 2 of items 1 to 16 of Schedule 1 to the Regulations.

source has the meaning given by section 1.10.

specified taxable fuel has the meaning given by regulation 3.30 of the Clean Energy Regulations 2011.

standard includes a protocol, technical specification or USEPA method.

standard conditions has the meaning given by subsection 2.32(7).

sulphite lyes has the meaning given by the Regulations.

supply has the meaning given by the Clean Energy Act 2011.

synthetic gas generating activities has the meaning given by subsections 4.100(1) and (2).

technical guidelines means the document published by the Department and known as the National Greenhouse Energy and Reporting (Measurement) Technical Guidelines 2009.

tight gas means a substance that:

                     (a)  consists of:

                              (i)  naturally occurring hydrocarbons; or

                             (ii)  a naturally occurring mixture of hydrocarbons and non‑hydrocarbons; and

                     (b)  consists mainly of methane; and

                     (c)  is drained from low permeability sandstone and limestone reservoirs.

uncertainty protocol means the publication known as the GHG protocol guidance on uncertainty assessment in GHG inventories and calculating statistical parameter uncertainty (September 2003) v1.0 issued by the World Resources Institute and the World Business Council for Sustainable Development.

underground mine means a coal mine that allows extraction of coal by mining at depth, after entry by shaft, adit or drift, without the removal of overburden.

USEPA followed by a reference to a method (for example, Method 3C) means a standard of that description issued by the United States Environmental Protection Agency.

waxes has the meaning given by the Regulations.

well completion means the period that:

                     (a)  begins on the initial gas flow in the well; and

                     (b)  ends on whichever of the following occurs first:

                              (i)  well shut in; or

                             (ii)  continuous gas flow from the well to a flow line or a storage vessel for collection.

well workover means the period that:

                     (a)  begins on the initial gas flow in the well that follows remedial operations to increase the well’s production; and

                     (b)  ends on whichever of the following occurs first:

                              (i)  well shut in; or

                             (ii)  continuous gas flow from the well to a flow line or a storage vessel for collection.

year means a financial year.

Note:          The following expressions in this Determination are defined in the Act:

·      carbon dioxide equivalence

·      consumption of energy (see also regulation 2.26 of the Regulations)

·      energy

·      facility

·      greenhouse gas

·      group

·      industry sector

·      operational control

·      potential greenhouse gas emissions

·      production of energy (see also regulation 2.25 of the Regulations)

·      registered corporation

·      scope 1 emission (see also regulation 2.23 of the Regulations)

·      scope 2 emission (see also regulation 2.24 of the Regulations).

1.9  Interpretation

             (1)  In this Determination, a reference to emissions is a reference to emissions of greenhouse gases.

             (2)  In this Determination, a reference to a gas type (j) is a reference to a greenhouse gas.

             (3)  In this Determination, a reference to a facility that is constituted by an activity is a reference to the facility being constituted in whole or in part by the activity.

Note:          Section 9 of the Act defines a facility as an activity or series of activities.

             (4)  In this Determination, a reference to a standard, instrument or other writing (other than a Commonwealth Act or Regulations) however described, is a reference to that standard, instrument or other writing as in force on 1 July 2014.

1.9A  Meaning of separate instance of a source

                   If 2 or more different activities of a facility have the same source of emissions, each activity is taken to be a separate instance of the source if the activity is performed by a class of equipment different from that used by another activity.

Example:    The combustion of liquefied petroleum gas in the engines of distribution vehicles of the facility operator and the combustion of liquid petroleum fuel in lawn mowers at the facility, although the activities have the same source of emissions, are taken to be a separate instance of the source as the activities are different and the class of equipment used to perform the activities are different.

1.9B  Meaning of separate occurrence of a source

             (1)  If 2 or more things at a facility have the same source of emissions, each thing may be treated as a separate occurrence of the source.

Example:    The combustion of unprocessed natural gas in 2 or more gas flares at a facility may be treated as a separate occurrence of the source (natural gas production or processing—flaring).

             (2)  If a thing at a facility uses 2 or more energy types, each energy type may be treated as a separate occurrence of the source.

Example:    The combustion of diesel and petrol in a vehicle at a facility may be treated as a separate occurrence of the source (fuel combustion).

1.10  Meaning of source

             (1)  A thing mentioned in column 3 of the following table is a source.

 

Item

Category of source

Source of emissions

1

Fuel combustion

 

1A

 

Fuel combustion

2

Fugitive emissions

 

2A

 

Underground mines

2B

 

Open cut mines

2C

 

Decommissioned underground mines

2D

 

Oil or gas exploration

2E

 

Crude oil production

2F

 

Crude oil transport

2G

 

Crude oil refining

2H

 

Natural gas production or processing (other than emissions that are vented or flared)

2I

 

Natural gas transmission

2J

 

Natural gas distribution

2K

 

Natural gas production or processing—flaring

2L

 

Natural gas production or processing—venting

2M

 

Carbon capture and storage

3

Industrial processes

 

3A

 

Cement clinker production

3B

 

Lime production

3C

 

Use of carbonates for the production of a product other than cement clinker, lime or soda ash

3D

 

Soda ash use

3E

 

Soda ash production

3F

 

Ammonia production

3G

 

Nitric acid production

3H

 

Adipic acid production

3I

 

Carbide production

3J

 

Chemical or mineral production, other than carbide production, using a carbon  reductant or carbon anode

3K

 

Iron, steel or other metal production using an integrated metalworks

3L

 

Ferroalloys production

3M

 

Aluminium production

3N

 

Other metals production

3O

 

Emissions of hydrofluorocarbons and sulphur hexafluoride gases

3P

 

Sodium cyanide production

4

Waste

 

4A

 

Solid waste disposal on land

4B

 

Wastewater handling (industrial)

4C

 

Wastewater handling (domestic or commercial)

4D

 

Waste incineration

             (2)  The extent of the source is as provided for in this Determination.

Part 1.2General

1.11  Purpose of Part

                   This Part provides for general matters as follows:

                     (a)  Division 1.2.1 provides for the measurement of emissions and also deals with standards;

                     (b)  Division 1.2.2 provides for methods for measuring emissions.

Division 1.2.1Measurement and standards

1.12  Measurement of emissions

                   The measurement of emissions released from the operation of a facility is to be done by estimating the emissions in accordance with this Determination.

1.13  General principles for measuring emissions

                   Estimates for this Determination must be prepared in accordance with the following principles:

                     (a)  transparency—emission estimates must be documented and verifiable;

                     (b)  comparability—emission estimates using a particular method and produced by a registered corporation or liable entity in an industry sector must be comparable with emission estimates produced by similar corporations or entities in that industry sector using the same method and consistent with the emission estimates published by the Department in the National Greenhouse Accounts;

                     (c)  accuracy—having regard to the availability of reasonable resources by a registered corporation or liable entity and the requirements of this Determination, uncertainties in emission estimates must be minimised and any estimates must neither be over nor under estimates of the true values at a 95% confidence level;

                     (d)  completeness—all identifiable emission sources mentioned in section 1.10 must be accounted for.

1.14  Assessment of uncertainty

                   The estimate of emissions released from the operation of a facility must include assessment of uncertainty in accordance with Chapter 8.

1.15  Units of measurement

             (1)  For this Determination, measurements of fuel must be converted as follows:

                     (a)  for solid fuel, to tonnes; and

                     (b)  for liquid fuels, to kilolitres unless otherwise specified; and

                     (c)  for gaseous fuels, to cubic metres, corrected to standard conditions, unless otherwise specified.

             (2)  For this Determination, emissions of greenhouses gases must be estimated in CO2‑e tonnes.

             (3)  Measurements of energy content must be converted to gigajoules.

             (4)  The National Measurement Act 1960, and any instrument made under that Act, must be used for conversions required under this section.

1.16  Rounding of amounts

             (1)  If:

                     (a)  an amount is worked out under this Determination; and

                     (b)  the number is not a whole number;

then:

                     (c)  the number is to be rounded up to the next whole number if the number at the first decimal place equals or exceeds 5; and

                     (d)  rounded down to the next whole number if the number at the first decimal place is less than 5.

             (2)  Subsection (1) applies to amounts that are measures of emissions or energy.

1.17  Status of standards

                   If there is an inconsistency between this Determination and a documentary standard, this Determination prevails to the extent of the inconsistency.

Division 1.2.2Methods

1.18  Method to be used for a separate occurrence of a source

             (1)  This section deals with the number of methods that may be used to estimate emissions of a particular greenhouse gas released, in relation to a separate occurrence of a source, from the operation of a facility.

          (1A)  Subsections (2) and (3) do not apply to a facility if:

                     (a)  the principal activity of the facility is electricity generation (ANZSIC industry classification and code 2611) and the generating unit used to perform the principal activity:

                              (i)  does not have the capacity to generate, in a reporting year, the amount of electricity mentioned in subparagraph 2.3(3)(b)(i); and

                             (ii)  generates, in a reporting year, less than or equal to the amount of electricity mentioned in subparagraph 2.3(3)(b)(ii); or

                     (b)  the principal activity of the facility is electricity generation (ANZSIC industry classification and code 2611) and the generating unit used to perform the principal activity:

                              (i)  does not have the capacity to generate, in a reporting year, the amount of electricity mentioned in subparagraph 2.19(3)(b)(i); and

                             (ii)  generates, in a reporting year, less than or equal to the amount of electricity mentioned in subparagraph 2.19(3)(b)(ii).

             (2)  Subject to subsection (3) and (3A), one method for the separate occurrence of a source must be used for 4 reporting years unless another higher method is used.

             (3)  If:

                     (a)  at a particular time, a method is being used to estimate emissions in relation to the separate occurrence of a source; and

                     (b)  either:

                              (i)  in the preceding 4 reporting years before that time, only that method has been used to estimate the emissions from the separate occurrence of the source; or

                             (ii)  a registered corporation or liable entity certifies in writing that the method used was found to be non‑compliant during an external audit of the separate occurrence of the source;

then a lower method may be used to estimate emissions in relation to the separate occurrence of the source from that time.

          (3A)  If section 22AA of the Act applies to a person, a lower method may be used to estimate emissions in relation to the source for the purposes of reporting under section 22AA.

             (4)  In this section, reporting year, in relation to a source from the operation of a facility under the operational control of a registered corporation and entities that are members of the corporation’s group, means a year that the registered corporation is required to provide a report under section 19 of the Act in relation to the facility

             (5)  Higher method, is:

                     (a)  a prescribed alternative method; or

                     (b)  in relation to a method (the original method) being used to estimate emissions in relation to a separate occurrence of a source, a method for the source with a higher number than the number of the original method.

             (6)  Lower method, is:

                     (a)  a default method; or

                     (b)  in relation to a method (the original method) being used to estimate emissions in relation to a separate occurrence of a source, a method for the source with a lower number than the number of the original method.

1.18A  Conditions—persons preparing report must use same method

             (1)  This section applies if a person is required, under section 19, 22A, 22AA, 22E, 22G or 22X of the Act (a reporting provision), to provide a report to the Regulator for a reporting year or part of a reporting year (the reporting period).

             (2)  For paragraph 10(3)(c) of the Act:

                     (a)  the person must, before 31 August in the year immediately following the reporting year, notify any other person required, under a reporting provision, to provide a report to the Regulator for the same facility of the method the person will use in the report; and

                     (b)  each person required to provide a report to the Regulator for the same facility and for the same reporting period must, before 31 October in the year immediately following the reporting year, take all reasonable steps to agree on a method to be used for each report provided to the Regulator for the facility and for the reporting period.

             (3)  If the persons mentioned in paragraph (2)(b) do not agree on a method before 31 October in the year immediately following the reporting year, each report provided to the Regulator for the facility and for the reporting period must use the method:

                     (a)  that was used in a report provided to the Regulator for the facility for the previous reporting year (if any); and

                     (b)  that will, of all the methods used in a report provided to the Regulator for the facility for the previous reporting year, result in a measurement of the largest amount of emissions for the facility for the reporting year.

             (4)  In this section, a reference to a method is a reference to a method or available alternative method, including the options (if any) included in the method or available alternative method.

Note 1:       Reporting year has the meaning given by the Regulations.

Note 2:       An example of available alternative methods is method 2 in section 2.5 and method 2 in section 2.6.

Note 3:       An example of options included within a method is paragraphs 3.36(a) and (b), which provide 2 options of ways to measure the size of mine void volume.

Note 4:       An example of options included within an available alternative method is the options for identifying the value of the oxidation factor (OFs) in subsection 2.5(3).

1.19  Temporary unavailability of method

             (1)  The procedure set out in this section applies if, during a reporting year, a method for a separate occurrence of a source or potential greenhouse gas emissions embodied in an amount of designated fuel cannot be used because of a mechanical or technical failure of equipment or a failure of measurement systems during a period (the down time).

             (2)  For each day or part of a day during the down time, the estimation of emissions from the separate occurrence of a source or potential greenhouse gas emissions embodied in an amount of designated fuel must be consistent with the principles in section 1.13.

             (3)  Subsection (2) only applies for a maximum of 6 weeks in a year. This period does not include down time taken for the calibration of the equipment.

             (4)  If down time is more than 6 weeks in a year, the registered corporation or liable entity must inform the Regulator, in writing, of the following:

                     (a)  the reason why down time is more than 6 weeks;

                     (b)  how the corporation or entity plans to minimise down time;

                     (c)  how emissions have been estimated during the down time.

             (5)  The information mentioned in subsection (4) must be given to the Regulator within 6 weeks after the day when down time exceeds 6 weeks in a year.

             (6)  The Regulator may require a registered corporation or liable entity to use method 1 to estimate emissions during the down time if:

                     (a)  method 2, 3 or 4 has been used to estimate emissions for the separate occurrence of a source; and

                     (b)  down time is more than 6 weeks in a year.

Division 1.2.3Requirements in relation to carbon capture and storage

1.19A  Meaning of captured for permanent storage

                   For this Determination, carbon dioxide is captured for permanent storage only if it is captured by, or transferred to:

                     (a)  the registered holder of a greenhouse gas injection licence under the Offshore Petroleum and Greenhouse Gas Storage Act 2006 for the purpose of being injected into an identified greenhouse gas storage formation under the licence in accordance with that Act; or

                     (b)  the holder of an injection and monitoring licence under the Greenhouse Gas Geological Sequestration Act 2008 (Vic) for the purpose of being injected into an underground geological formation under the licence in accordance with that Act; or

                     (c)  the registered holder of a greenhouse gas injection licence under the Offshore Petroleum and Greenhouse Gas Storage Act 2010 (Vic) for the purpose of being injected into an identified greenhouse gas storage formation under the licence in accordance with that Act; or

                     (d)  the holder of a GHG injection and storage lease under the Greenhouse Gas Storage Act 2009 (Qld) for the purpose of being injected into a GHG stream storage site under the lease in accordance with that Act; or

                     (e)  the holder of an approval under the Barrow Island Act 2003 (WA) for the purpose of being injected into an underground reservoir or other subsurface formation in accordance with that Act; or

                      (f)  the holder of a gas storage licence under the Petroleum and Geothermal Energy Act 2000 (SA) for the purpose of being injected into a natural reservoir under the licence in accordance with that Act.

1.19B  Deducting carbon dioxide that is captured for permanent storage

             (1)  If a provision of this Determination provides that an amount of carbon dioxide that is captured for permanent storage may be deducted in the estimation of emissions under the provision, then the amount of carbon dioxide may be deducted only if:

                     (a)  the carbon dioxide that is captured for permanent storage is captured by, or transferred to, a relevant person; and

                     (b)  the amount of carbon dioxide that is captured for permanent storage is estimated in accordance with section 1.19E; and

                     (c)  the relevant person issues a written certificate that complies with subsection (2).

             (2)  The certificate must specify:

                     (a)  if the carbon dioxide is captured by the relevant person and is neither transferred to the relevant person nor transferred by the relevant person to another person—the following information:

                              (i)  the amount of carbon dioxide captured by the relevant person;

                             (ii)  the volume of the carbon dioxide stream containing the captured carbon dioxide;

                            (iii)  the concentration of carbon dioxide in the stream; or

                     (b)  if the carbon dioxide is transferred to the relevant person—the following information:

                              (i)  the amount of carbon dioxide that was transferred to the relevant person;

                             (ii)  the volume of the carbon dioxide stream containing the transferred carbon dioxide;

                            (iii)  the concentration of carbon dioxide in the stream.

             (3)  The amount of carbon dioxide that may be deducted is the amount specified in the certificate under paragraph (1)(c).

1.19C  Capture from facility with multiple sources jointly generated

                   If, during the operation of a facility, more than 1 source generates carbon dioxide, the total amount of carbon dioxide that may be deducted in relation to the facility is to be attributed:

                     (a)  if it is possible to determine the amount of carbon dioxide that is captured for permanent storage from each source—to each source from which the carbon dioxide is captured according to the amount captured from the source; or

                     (b)  if it is not possible to determine the amount of carbon dioxide captured for permanent storage from each source—to the main source that generated the carbon dioxide that is captured during the operation of the facility.

1.19D  Capture from a source where multiple fuels consumed

                   If more than 1 fuel is consumed for a source that generates carbon dioxide that is captured for permanent storage, the total amount of carbon dioxide that may be deducted in relation to the source is to be attributed to each fuel consumed in proportion to the carbon content of the fuel relative to the total carbon content of all fuel consumed for that source.

1.19E  Measure of quantity of carbon dioxide captured

             (1)  For paragraph 1.19B(1)(b), the amount of captured carbon dioxide must be estimated in accordance with this section.

             (2)  The volume of the carbon dioxide stream containing the captured carbon dioxide must be estimated:

                     (a)  if the carbon dioxide stream is transferred to a relevant person—using:

                              (i)  criterion A in section 1.19F; or

                             (ii)  criterion AAA in section 1.19G; or

                     (b)  if the carbon dioxide stream is captured by the relevant person and is neither transferred to the relevant person nor transferred by the relevant person to another person—using:

                              (i)  criterion AAA in section 1.19G; or

                             (ii)  criterion BBB in section 1.19N.

             (3)  The carbon dioxide stream must be sampled in accordance with ISO 10715:1997, or an equivalent standard.

             (4)  The concentration of carbon dioxide in the carbon dioxide stream must be analysed in accordance with the following parts of ISO 6974 or an equivalent standard:

                     (a)  Part 1 (2000);

                     (b)  Part 2 (2001);

                     (c)  Part 3 (2000);

                     (d)  Part 4 (2000);

                     (e)  Part 5 (2000);

                      (f)  Part 6 (2002).

             (5)  The volume of the carbon dioxide stream must be expressed in cubic metres.

             (6)  The carbon dioxide stream must be analysed for concentration of carbon dioxide on at least a monthly basis.

1.19F  Volume of carbon dioxide stream—criterion A

             (1)  For subparagraph 1.19E(2)(a)(i), criterion A is the volume of the carbon dioxide stream that is:

                     (a)  transferred to the relevant person during the year; and

                     (b)  specified in a certificate issued by the relevant person under paragraph 1.19B(1)(c).

             (2)  The volume specified in the certificate must be accurate and must be evidenced by invoices issued by the relevant person.

1.19G  Volume of carbon dioxide stream—criterion AAA

             (1)  For subparagraphs 1.19E(2)(a)(ii) and (b)(i), criterion AAA is the measurement during the year of the captured carbon dioxide stream from the operation of a facility at the point of capture.

             (2)  In measuring the quantity of the carbon dioxide stream at the point of capture, the quantity of the carbon dioxide stream must be measured:

                     (a)  using volumetric measurement in accordance with:

                              (i)  for a carbon dioxide stream that is not super‑compressed—section 1.19H; and

                             (ii)  for a supercompressed carbon dioxide stream—section 1.19I; and

                     (b)  using gas measuring equipment that complies with section 1.19J.

             (3)  The measurement must be carried out using measuring equipment that:

                     (a)  is in a category specified in column 2 of an item in the table in subsection (4) according to the maximum daily quantity of the carbon dioxide stream captured specified in column 3 for that item from the operation of the facility; and

                     (b)  complies with the transmitter and accuracy requirements for that equipment specified in column 4 for that item, if the requirements are applicable to the measuring equipment being used.

             (4)  For subsection (3), the table is as follows.

 

Item

Gas measuring equipment category

Maximum daily quantity of carbon dioxide stream cubic metres/day

Transmitter and accuracy requirements (% of range)

1

1

0–50 000

Pressure <±0.25%

Diff. pressure <±0.25%

Temperature <±0.50%

2

2

50 001–100 000

Pressure <±0.25%

Diff. pressure <±0.25%

Temperature <±0.50%

3

3

100 001–500 000

Smart transmitters:

Pressure <±0.10%

Diff. pressure <±0.10%

Temperature <±0.25%

4

4

500 001 or more

Smart transmitters:

Pressure <±0.10%

Diff. pressure <±0.10%

Temperature <±0.25%

1.19H  Volumetric measurement—carbon dioxide stream not super‑compressed

             (1)  For subparagraph 1.19G(2)(a)(i), volumetric measurement of a carbon dioxide stream that is not super‑compressed must be in cubic metres at standard conditions.

             (2)  The volumetric measurement is to be calculated using a flow computer that measures and analyses flow signals and relative density:

                     (a)  if the carbon dioxide stream is captured by the relevant person and is neither transferred to the relevant person nor transferred by the relevant person to another person—at the point of capture of the carbon dioxide stream; or

                     (b)  if the carbon dioxide stream is transferred to a relevant person—at the point of transfer of the carbon dioxide stream.

             (3)  The volumetric flow rate must be continuously recorded and integrated using an integration device that is isolated from the flow computer in such a way that if the computer fails, the integration device will retain the last reading, or the previously stored information, that was on the computer immediately before the failure.

             (4)  Subject to subsection (5), all measurements, calculations and procedures used in determining volume (except for any correction for deviation from the ideal gas law) must be made in accordance with the instructions contained in the following:

                     (a)  for orifice plate measuring systems:

                              (i)  the publication entitled AGA Report No. 3, Orifice Metering of Natural Gas and Other Related Hydrocarbon Fluids Part 3: Natural Gas Applications, published by the American Gas Association in August 1992; or

                             (ii)  Parts 1 to 4 of the publication entitled ANSI/API MPMS Chapter 14.3 Part 2 (R2011) Natural Gas Fluids Measurement: Concentric, Square‑Edged Orifice Meters ‑ Part 2: Specification and Installation Requirements, 4th edition, published by the American Petroleum Institute on 30 April 2000;

                     (b)  for turbine measuring systems—the publication entitled AGA Report No. 7, Measurement of Natural Gas by Turbine Meter (2006), published by the American Gas Association on 1 January 2006;

                     (c)  for positive displacement measuring systems—the publication entitled ANSI B109.3—2000, Rotary Type Gas Displacement Meters, published by the American Gas Association on 13 April 2000.

             (5)  Measurements, calculations and procedures used in determining volume may also be made in accordance with an equivalent internationally recognised documentary standard or code.

             (6)  Measurements must comply with Australian legal units of measurement.

1.19I  Volumetric measurement—supercompressed carbon dioxide stream

             (1)  For subparagraph 1.19G(2)(a)(ii), volumetric measurement of a super‑compressed carbon dioxide stream must be in accordance with this section.

             (2)  If, in determining volume in relation to the supercompressed carbon dioxide stream, it is necessary to correct for deviation from the ideal gas law, the correction must be determined using the relevant method contained in the publication entitled American Gas Association Transmission Measurement Committee Report No. 8 (1992) Super‑compressibility published by the American Gas Association.

             (3)  The measuring equipment used must calculate super‑compressibility by:

                     (a)  if the measuring equipment is category 3 or 4 equipment in accordance with column 2 the table in subsection 1.19G(4)—using composition data; or

                     (b)  if the measuring equipment is category 1 or 2 equipment in accordance with column 2 of the table in subsection 1.19G(4)—using an alternative method set out in the publication entitled American Gas Association Transmission Measurement Committee Report No. 8 (1992) Super‑compressibility published by the American Gas Association.

1.19J  Gas measuring equipment—requirements

                   For paragraph 1.19G(2)(b), gas measuring equipment that is category 3 or 4 equipment in accordance with column 2 of the table in subsection 1.19G(4) must comply with the following requirements:

                     (a)  if the equipment uses flow devices—the requirements relating to flow devices set out in section 1.19K;

                     (b)  if the equipment uses flow computers—the requirement relating to flow computers set out in section 1.19L;

                     (c)  if the equipment uses gas chromatographs—the requirements relating to gas chromatographs set out in section 1.19M.

1.19K  Flow devices—requirements

             (1)  If the measuring equipment has flow devices that use orifice measuring systems, the flow devices must be constructed in a manner that ensures that the maximum uncertainty of the discharge coefficient is not greater than ±1.5%.

Note:          The publication entitled AGA Report No. 3, Orifice Metering of Natural Gas and Other Related Hydrocarbon Fluids Part 3: Natural Gas Applications, published by the American Gas Association in August 1992, sets out a manner that ensures that the maximum uncertainty of the discharge coefficient is not greater than ±1.5%.

             (2)  If the measuring equipment has flow devices that use turbine measuring systems, the flow devices must be installed in a manner that ensures that the maximum uncertainty of the flow measurement is not greater than ±1.5%.

Note:          The publication entitled American Gas Association Transmission Measurement Committee Report No. 8 (1992) Super‑compressibility, published by the American Gas Association, sets out a manner that ensures that the maximum uncertainty of the flow measurement is not greater than ±1.5%.

             (3)  If the measuring equipment has flow devices that use positive displacement measuring systems, the flow devices must be installed in a manner that ensures that the maximum uncertainty of flow is ±1.5%.

Note:          The publication entitled ANSI B109.3—2000, Rotary Type Gas Displacement Meters, published by the American Gas Association on 13 April 2000, sets out a manner for installation that ensures that the maximum uncertainty of flow is ±1.5%.

             (4)  If the measuring equipment uses any other type of flow device, the maximum uncertainty of flow measurement must not be greater than ±1.5%.

             (5)  All flow devices that are used by measuring equipment of a category specified in column 2 of the table in subsection 1.19G(4) must, wherever possible, be calibrated for pressure, differential pressure and temperature in accordance with the requirements specified in column 4 for the category of equipment specified in column 2 for that item. The calibrations must take into account the effects of static pressure and ambient temperature.

1.19L  Flow computers—requirements

                   For paragraph 1.19J(b), the requirement is that the flow computer that is used by the equipment for measuring purposes must record the instantaneous values for all primary measurement inputs and must also record the following outputs:

                     (a)  instantaneous corrected volumetric flow;

                     (b)  cumulative corrected volumetric flow;

                     (c)  for turbine and positive displacement metering systems—instantaneous uncorrected volumetric flow;

                     (d)  for turbine and positive displacement metering systems—cumulative uncorrected volumetric flow;

                     (e)  super‑compressibility factor.

1.19M  Gas chromatographs

                   For paragraph 1.19J(c), the requirements are that gas chromatographs used by the measuring equipment must:

                     (a)  be factory tested and calibrated using a measurement standard produced by gravimetric methods and traceable to Australian units of measurement required by or under the National Measurement Act 1960; and

                     (b)  perform gas composition analysis with an accuracy of ±0.25% for calculation of relative density; and

                     (c)  include a mechanism for re‑calibration against a certified reference gas.

1.19N  Volume of carbon dioxide stream—criterion BBB

                   For subparagraph 1.19E(2)(b)(ii), criterion BBB is the estimation of the volume of the captured carbon dioxide stream from the operation of the facility during a year measured in accordance with industry practice if the equipment used to measure the volume of the captured carbon dioxide stream does not meet the requirements of criterion AAA.

Note:          An estimate obtained using industry practice must be consistent with the principles in section 1.13.

Part 1.3Method 4—Direct measurement of emissions

Division 1.3.1Preliminary

1.20  Overview

             (1)  This Chapter provides for method 4 for a source.

Note:          Method 4 as provided for in this Part applies to a source as indicated in the Chapter, Part, Division or Subdivision dealing with the source.

             (2)  Method 4 requires the direct measurement of emissions released from the source from the operation of a facility during a year by monitoring the gas stream at a site within part of the area (for example, a duct or stack) occupied for the operation of the facility.

             (3)  Method 4 consists of the following:

                     (a)  method 4 (CEM) as specified in section 1.21 that requires the measurement of emissions using continuous emissions monitoring (CEM);

                     (b)  method 4 (PEM) as specified in section 1.27 that requires the measurement of emissions using periodic emissions monitoring (PEM).

Division 1.3.2Operation of method 4 (CEM)

Subdivision 1.3.2.1Method 4 (CEM)

1.21  Method 4 (CEM)—estimation of emissions

             (1)  To obtain an estimate of the mass of emissions of a gas type (j), being methane, carbon dioxide or nitrous oxide, released at the time of measurement at a monitoring site within the area occupied for the operation of a facility, the following formula must be applied:

                  

where:

Mjct is the mass of emissions in tonnes of gas type (j) released per second.

MMj is the molecular mass of gas type (j) measured in tonnes per kilomole which:

                     (a)  for methane is 16.0410‑3; or

                     (b)  for carbon dioxide is 44.0110‑3; or

                     (c)  for nitrous oxide is 44.0110‑3.

Pct is the pressure of the gas stream in kilopascals at the time of measurement.

FRct is the flow rate of the gas stream in cubic metres per second at the time of measurement.

Cjct is the proportion of gas type (j) in the volume of the gas stream at the time of measurement.

Tct is the temperature, in degrees kelvin, of the gas at the time of measurement.

             (2)  The mass of emissions estimated under subsection (1) must be converted into CO2‑e tonnes.

             (3)  Data on estimates of the mass emissions rates obtained under subsection (1) during an hour must be converted into a representative and unbiased estimate of mass emissions for that hour.

             (4)  The estimate of emissions of gas type (j) during a year is the sum of the estimates for each hour of the year worked out under subsection (3).

             (5)  If method 1 is available for the source, the total mass of emissions for a gas from the source for the year calculated under this section must be reconciled against an estimate for that gas from the facility for the same period calculated using method 1 for that source.

1.21A  Emissions from a source where multiple fuels consumed

                   If more than one fuel is consumed for a source that generates carbon dioxide that is directly measured using method 4 (CEM), the total amount of carbon dioxide is to be attributed to each fuel consumed in proportion to the carbon content of the fuel relative to the total carbon content of all fuel consumed for that source.

Subdivision 1.3.2.2Method 4 (CEM)—use of equipment

1.22  Overview

                   The following apply to the use of equipment for CEM:

                     (a)  the requirements in section 1.23 about location of the sampling positions for the CEM equipment;

                     (b)  the requirements in section 1.24 about measurement of volumetric flow rates in the gas stream;

                     (c)  the requirements in section 1.25 about measurement of the concentrations of greenhouse gas in the gas stream;

                     (d)  the requirements in section 1.26 about frequency of measurement.

1.23  Selection of sampling positions for CEM equipment

                   For paragraph 1.22(a), the location of sampling positions for the CEM equipment in relation to the gas stream must be selected in accordance with an appropriate standard.

Note:          Appropriate standards include:

·         AS 4323.1—1995 Stationary source emissions ‑ Selection of sampling positions.

·         AS 4323[1].1—1995 Amdt 1‑1995 Stationary source emissions ‑ Selection of sampling positions.

·         ISO 10396:2007 Stationary source emissions ‑ Sampling for the automated determination of gas emission concentrations for permanently‑installed monitoring systems.

·         ISO 10012:2003 Measurement management systems ‑ Requirements for measurement processes and measuring equipment.

·         USEPA – Method 1 – Sample and Velocity Traverses for Stationary Sources (2000).

1.24  Measurement of flow rates by CEM

                   For paragraph 1.22(b), the measurement of the volumetric flow rates by CEM of the gas stream must be undertaken in accordance with an appropriate standard.

Note:          Appropriate standards include:

·         ISO 10780:1994 Stationary source emissions—Measurement of velocity and volume flowrate of gas streams in ducts.

·         ISO 14164:1999 Stationary source emissions—Determination of the volume flowrate of gas streams in ducts ‑ Automated method.

·         USEPA Method 2 Determination of Stack Gas Velocity and Volumetric flowrate (Type S Pitot tube) (2000).

·         USEPA Method 2A Direct Measurement of Gas Volume Through Pipes and Small Ducts (2000).

1.25  Measurement of gas concentrations by CEM

                   For paragraph 1.22(c), the measurement of the concentrations of gas in the gas stream by CEM must be undertaken in accordance with an appropriate standard.

Note:          Appropriate standards include:

·         USEPA Method 3A Determination of oxygen and carbon dioxide concentrations in emissions from stationary sources (instrumental analyzer procedure) (2006).

·         USEPA Method 3C Determination of carbon dioxide, methane, nitrogen, and oxygen from stationary sources (1996).

·         ISO 12039:2001 Stationary source emissions—Determination of carbon monoxide, carbon dioxide and oxygen—Performance characteristics and calibration of automated measuring system.

1.26  Frequency of measurement by CEM

             (1)  For paragraph 1.22(d), measurements by CEM must be taken frequently enough to produce data that is representative and unbiased.

             (2)  For subsection (1), if part of the CEM equipment is not operating for a period, readings taken during periods when the equipment was operating may be used to estimate data on a pro rata basis for the period that the equipment was not operating.

             (3)  Frequency of measurement will also be affected by the nature of the equipment.

Example:    If the equipment is designed to measure only one substance, for example, carbon dioxide or methane, measurements might be made every minute. However, if the equipment is designed to measure different substances in alternate time periods, measurements might be made much less frequently, for example, every 15 minutes.

             (4)  The CEM equipment must operate for more than 90% of the period for which it is used to monitor an emission.

             (5)  In working out the period during which CEM equipment is being used to monitor for the purposes of subsection (4), exclude downtime taken for the calibration of equipment.

Division 1.3.3Operation of method 4 (PEM)

Subdivision 1.3.3.1Method 4 (PEM)

1.27  Method 4 (PEM)—estimation of emissions

             (1)  To obtain an estimate of the mass emissions rate of methane, carbon dioxide or nitrous oxide released at the time of measurement at a monitoring site within the area occupied for the operation of a facility, the formula in subsection 1.21(1) must be applied.

             (2)  The mass of emissions estimated under the formula must be converted into CO2‑e tonnes.

             (3)  The average mass emissions rate for the gas measured in CO2‑e tonnes per hour for a year must be calculated from the estimates obtained under subsection (1).

             (4)  The total mass of emissions of the gas for the year is calculated by multiplying the average emissions rate obtained under subsection (3) by the number of hours during the year when the site was operating.

             (5)  If method 1 is available for the source, the total mass of emissions of the gas for a year calculated under this section must be reconciled against an estimate for that gas from the site for the same period calculated using method 1 for that source.

1.27A  Emissions from a source where multiple fuels consumed

                   If more than one fuel is consumed for a source that generates carbon dioxide that is directly measured using method 4 (PEM), the total amount of carbon dioxide is to be attributed to each fuel consumed in proportion to the carbon content of the fuel relative to the total carbon content of all fuel consumed for that source.

1.28  Calculation of emission factors

             (1)  Data obtained from periodic emissions monitoring of a gas stream may be used to estimate the average emission factor for the gas per unit of fuel consumed or material produced.

             (2)  In this section, data means data about:

                     (a)  volumetric flow rates estimated in accordance with section 1.31; or

                     (b)  gas concentrations estimated in accordance with section 1.32; or

                     (c)  consumption of fuel or material input, estimated in accordance with Chapters 2 to 7; or

                     (d)  material produced, estimated in accordance with Chapters 2 to 7.

Subdivision 1.3.3.2Method 4 (PEM)—use of equipment

1.29  Overview

                   The following requirements apply to the use of equipment for PEM:

                     (a)  the requirements in section 1.30 about location of the sampling positions for the PEM equipment;

                     (b)  the requirements in section 1.31 about measurement of volumetric flow rates in a gas stream;

                     (c)  the requirements in section 1.32 about measurement of the concentrations of greenhouse gas in the gas stream;

                     (d)  the requirements in section 1.33 about representative data.

1.30  Selection of sampling positions for PEM equipment

                   For paragraph 1.29(a), the location of sampling positions for PEM equipment must be selected in accordance with an appropriate standard.

Note:          Appropriate standards include:

·         AS 4323.1—1995 Stationary source emissions—Selection of sampling positions.

·         AS 4323.1‑1995 Amdt 1‑1995 Stationary source emissions—Selection of sampling positions.

·         ISO 10396:2007 Stationary source emissions—Sampling for the automated determination of gas emission concentrations for permanently‑installed monitoring systems.

·         ISO 10012:2003 Measurement management systems—Requirements for measurement processes and measuring equipment.

·         USEPA Method 1 Sample and Velocity Traverses for Stationary Sources (2000).

1.31  Measurement of flow rates by PEM equipment

                   For paragraph 1.29(b), the measurement of the volumetric flow rates by PEM of the gas stream must be undertaken in accordance with an appropriate standard.

Note:          Appropriate standards include:

·         ISO 10780:1994 Stationary source emissions – Measurement of velocity and volume flowrate of gas streams in ducts.

·         ISO 14164:1999 Stationary source emissions. Determination of the volume flow rate of gas streams in ducts – automated method.

·         USEPA Method 2 Determination of stack velocity and volumetric flow rate (Type S Pitot tube) (2000).

·         USEPA Method 2A Direct measurement of gas volume through pipes and small ducts (2000).

1.32  Measurement of gas concentrations by PEM

                   For paragraph 1.29(c), the measurement of the concentrations of greenhouse gas in the gas stream by PEM must be undertaken in accordance with an appropriate standard.

Note:          Appropriate standards include:

·         USEPA Method 3A Determination of oxygen and carbon dioxide concentrations in emissions from stationary sources (instrumental analyser procedure) (2006).

·         USEPA Method 3C Determination of carbon dioxide, methane, nitrogen, and oxygen from stationary sources (1996).

·         ISO12039:2001 Stationary source emissions – Determination of carbon monoxide, carbon dioxide and oxygen – Performance characteristics and calibration of an automated measuring method.

1.33  Representative data for PEM

             (1)  For paragraph 1.29(d), sampling by PEM must be undertaken during the year for a sufficient duration to produce representative data that may be reliably extrapolated to provide estimates of emissions across the full range of operating conditions for that year.

             (2)  Emission estimates using PEM equipment must also be consistent with the principles in section 1.13.

Division 1.3.4Performance characteristics of equipment

  

1.34  Performance characteristics of CEM or PEM equipment

             (1)  The performance characteristics of CEM or PEM equipment must be measured in accordance with this section.

             (2)  The test procedure specified in an appropriate standard must be used for measuring the performance characteristics of CEM or PEM equipment.

             (3)  For the calibration of CEM or PEM equipment, the test procedure must be:

                     (a)  undertaken by an accredited laboratory; or

                     (b)  undertaken by a laboratory that meets requirements equivalent to ISO 17025; or

                     (c)  undertaken in accordance with applicable State or Territory legislation.

             (4)  As a minimum requirement, a cylinder of calibration gas must be certified by an accredited laboratory accredited to ISO Guide 34:2000 as being within 2% of the concentration specified on the cylinder label.

Chapter 2Fuel combustion

Part 2.1Preliminary

  

2.1  Outline of Chapter

                   This Chapter provides for the following matters:

                     (a)  emissions released from the following sources:

                              (i)  the combustion of solid fuels (see Part 2.2);

                             (ii)  the combustion of gaseous fuels (Part 2.3);

                            (iii)  the combustion of liquid fuels (Part 2.4);

                            (iv)  fuel use by certain industries (Part 2.5);

                     (b)  the measurement of fuels in blended fuels (Part 2.6);

                     (c)  the estimation of energy for certain purposes (Part 2.7).

Part 2.2Emissions released from the combustion of solid fuels

Division 2.2.1Preliminary

2.2  Application

                   This Part applies to emissions released from the combustion of solid fuel in relation to a separate instance of a source if the amount of solid fuel combusted in relation to the separate instance of the source is more than 1 tonne.

2.3  Available methods for estimating emissions of carbon dioxide, methane and nitrous oxide

             (1)  Subject to section 1.18, for estimating emissions released from the combustion of a solid fuel consumed from the operation of a facility during a year:

                     (a)  one of the following methods must be used for estimating emissions of carbon dioxide:

                              (i)  subject to subsection (3), method 1 under section 2.4;

                             (ii)  method 2 using an oxidation factor under section 2.5 or an estimated oxidation factor under section 2.6;

                            (iii)  method 3 using an oxidation factor or an estimated oxidation factor under section 2.12;

                            (iv)  method 4 under Part 1.3; and

                     (b)  method 1 under section 2.4 must be used for estimating emissions of methane and nitrous oxide.

             (2)  However, for incidental emissions another method may be used that is consistent with the principles in section 1.13.

             (3)  Method 1 must not be used for estimating emissions of carbon dioxide for the main fuel combusted from the operation of the facility if:

                     (a)  the principal activity of the facility is electricity generation (ANZSIC industry classification and code 2611); and

                     (b)  the generating unit:

                              (i)  has the capacity to produce 30 megawatts or more of electricity; and

                             (ii)  generates more than 50 000 megawatt hours of electricity in a reporting year.

Note:          There is no method 2, 3 or 4 for paragraph (1)(b).

Division 2.2.2Method 1—emissions of carbon dioxide, methane and nitrous oxide from solid fuels

2.4  Method 1—solid fuels

                   For subparagraph 2.3(1)(a)(i), method 1 is:

                  

where:

Eij is the emissions of gas type (j), being carbon dioxide, methane or nitrous oxide, released from the combustion of fuel type (i) from the operation of the facility during the year measured in CO2‑e tonnes.

Qi is the quantity of fuel type (i) measured in tonnes and estimated under Division 2.2.5.

ECis the energy content factor of fuel type (i) estimated under section 6.5.

EFijoxec is the emission factor for each gas type (j) (which includes the effect of an oxidation factor) released from the combustion of fuel type (i) measured in kilograms of CO2‑e per gigajoule according to source as mentioned in Schedule 1.

Division 2.2.3Method 2—emissions from solid fuels

Subdivision 2.2.3.1Method 2—estimating carbon dioxide using default oxidation factor

2.5  Method 2—estimating carbon dioxide using oxidation factor

             (1)  For subparagraph 2.3(1)(a)(ii), method 2 is:

                  

where:

Eico2 means the emissions of carbon dioxide released from the combustion of fuel type (i) from the operation of the facility during the year measured in CO2‑e tonnes.

Qi is the quantity of fuel type (i) measured in tonnes and estimated under Division 2.2.5.

ECis the energy content factor of fuel type (i) estimated under section 6.5.

EFico2oxec is the carbon dioxide emission factor for fuel type (i) measured in kilograms of CO2‑e per gigajoule as worked out under subsection (2).

γ is the factor 1.861 × 10‑3 for converting a quantity of carbon dioxide from cubic metres at standard conditions of pressure and temperature to CO2‑e tonnes.

RCCSCO2 is carbon dioxide captured for permanent storage measured in cubic metres in accordance with Division 1.2.3.

             (2)  For EFico2oxec in subsection (1), estimate as follows:

                  

where:

EFico2ox,kg is the carbon dioxide emission factor for fuel type (i) measured in kilograms of CO2‑e per kilogram of fuel as worked out under subsection (3).

ECi is the energy content factor of fuel type (i) as obtained under subsection (1).

             (3)  For EFico2ox,kg in subsection (2), work out as follows:

                  

where:

Car is the percentage of carbon in fuel type (i), as received for the facility or as combusted from the operation of the facility, worked out under subsection (4).

OFs, or oxidation factor, is 1.0.

             (4)  For Car in subsection (3), work out as follows:

                  

where:

Cdaf is the amount of carbon in fuel type (i) as a percentage of the dry ash‑free mass of the fuel estimated using the sampling and analysis provided for in Subdivision 2.2.3.3.

Mar is the amount of moisture in fuel type (i) as a percentage of the as received or as combusted mass of the fuel estimated using the sampling and analysis provided for in Subdivision 2.2.3.3.

Aar is the amount of ash in fuel type (i) as a percentage of the as received or as combusted mass of the fuel estimated using the sampling and analysis provided for in Subdivision 2.2.3.3.

Subdivision 2.2.3.2Method 2—estimating carbon dioxide using an estimated oxidation factor

2.6  Method 2—estimating carbon dioxide using an estimated oxidation factor

             (1)  For subparagraph 2.3(1)(a)(ii), method 2 is:

                  

where:

Eico2 means the emissions of carbon dioxide released from the combustion of fuel type (i) from the operation of the facility during the year measured in CO2‑e tonnes.

Qi is the quantity of fuel type (i) measured in tonnes and estimated under Division 2.2.5.

ECis the energy content factor of fuel type (i) estimated under section 6.5.

EFico2oxec is the amount worked out under subsection (2).

γ is the factor 1.861 × 10‑3 for converting a quantity of carbon dioxide from cubic metres at standard conditions of pressure and temperature to CO2‑e tonnes.

RCCSCO2 is carbon dioxide captured for permanent storage measured in cubic metres in accordance with Division 1.2.3.

             (2)  For EFico2oxec in subsection (1), work out as follows:

                  

where:

EFico2ox,kg is the carbon dioxide emission factor for the type of fuel measured in kilograms of CO2‑e per kilogram of the type of fuel as worked out under subsection (3).

ECi is the energy content factor of fuel type (i) as obtained under subsection (1).

             (3)  For EFico2ox,kg in subsection (2), estimate as follows:

where:

Car is the percentage of carbon in fuel type (i), as received for the facility or as combusted from the operation of the facility, worked out under subsection (4).

Ca is the amount of carbon in the ash estimated as a percentage of the as‑sampled mass that is the weighted average of fly ash and ash by sampling and analysis in accordance with Subdivision 2.2.3.3.

Aar is the amount of ash in fuel type (i) as a percentage of the as received or as combusted mass of the fuel estimated using the sampling and analysis provided for in Subdivision 2.2.3.3.

             (4)  For Car, in subsection (3), estimate as follows:

                  

where:

Cdaf is the amount of carbon in fuel type (i) as a percentage of the dry ash‑free mass of the fuel estimated using the sampling and analysis provided for in Subdivision 2.2.3.3.

Mar is the amount of moisture in fuel type (i) as a percentage of the as received or as combusted mass of the fuel estimated using the sampling and analysis provided for in Subdivision 2.2.3.3.

Aar is the amount of ash in fuel type (i) as a percentage of the as received or as combusted mass of the fuel estimated using the sampling and analysis provided for in Subdivision 2.2.3.3.

Subdivision 2.2.3.3Sampling and analysis for method 2 under sections 2.5 and 2.6

2.7  General requirements for sampling solid fuels

             (1)  A sample of the solid fuel must be derived from a composite of amounts of the solid fuel combusted.

             (2)  The samples must be collected on enough occasions to produce a representative sample.

             (3)  The samples must also be free of bias so that any estimates are neither over nor under estimates of the true value.

             (4)  Bias must be tested in accordance with an appropriate standard (if any).

Note:          An appropriate standard for most solid mineral fuels is AS 4264.4—1996 Coal and coke—Sampling—Determination of precision and bias.

             (5)  The value obtained from the sample must only be used for the delivery period or consignment of the fuel for which it was intended to be representative.

2.8  General requirements for analysis of solid fuels

             (1)  A standard for analysis of a parameter of a solid fuel, and the minimum frequency of analysis of a solid fuel, is as set out in Schedule 2.

             (2)  A parameter of a solid fuel may also be analysed in accordance with a standard that is equivalent to a standard set out in Schedule 2.

             (3)  Analysis must be undertaken by an accredited laboratory that meets the requirements equivalent to those in AS ISO/IEC 17025:2005. However, analysis may be undertaken by an on‑line analyser if:

                     (a)  the analyser is calibrated in accordance with an appropriate standard; and

                     (b)  analysis undertaken to meet the standard is done by a laboratory that meets the requirements equivalent to those in AS ISO/IEC 17025:2005.

Note:          An appropriate standard is AS 1038.24—1998, Coal and coke—Analysis and testing, Part 24: Guide to the evaluation of measurements made by on‑line coal analysers.

             (4)  If a delivery of fuel lasts for a month or less, analysis must be conducted on a delivery basis.

             (5)  However, if the properties of the fuel do not change significantly between deliveries over a period of a month, analysis may be conducted on a monthly basis.

             (6)  If a delivery of fuel lasts for more than a month, and the properties of the fuel do not change significantly before the next delivery, analysis of the fuel may be conducted on a delivery basis rather than monthly basis.

2.9  Requirements for analysis of furnace ash and fly ash

                   For furnace ash and fly ash, analysis of the carbon content must be undertaken in accordance with AS 3583.2—1991 Determination of moisture content and AS 3583.3—1991 Determination of loss on ignition or a standard that is equivalent to those standards.

2.10  Requirements for sampling for carbon in furnace ash

             (1)  This section applies to furnace ash sampled for its carbon content if the ash is produced from the operation of a facility that is constituted by a plant.

             (2)  A sample of the ash must be derived from representative operating conditions in the plant.

             (3)  A sample of ash may be collected:

                     (a)  if contained in a wet extraction system—by using sampling ladles to collect it from sluiceways; or

                     (b)  if contained in a dry extraction system—directly from the conveyer; or

                     (c)  if it is not feasible to use one of the collection methods mentioned in paragraph (a) or (b)—by using another collection method that provides representative ash sampling.

2.11  Sampling for carbon in fly ash

                   Fly ash must be sampled for its carbon content in accordance with:

                     (a)  a procedure set out in column 2 of an item in the following table, and at a frequency set out in column 3 for that item; or

                     (b)  if it is not feasible to use one of the procedures mentioned in paragraph (a)—another procedure that provides representative ash sampling, at least every two years, or after significant changes in operating conditions.

 

Item

Procedure

Frequency

1

At the outlet of a boiler air heater or the inlet to a flue gas cleaning plant using the isokinetic sampling method in AS 4323.1—1995 or AS 4323.2—1995, or in a standard that is equivalent to one of those standards

At least every 2 years, or after significant changes in operating conditions

2

By using standard industry ‘cegrit’ extraction equipment

At least every year, or after significant changes in operating conditions

3

By collecting fly ash from:

(a) the fly ash collection hoppers of a flue gas cleaning plant; or

(b) downstream of fly ash collection hoppers from ash silos or sluiceways

At least once a year, or after significant changes in operating conditions

4

From on‑line carbon in ash analysers using sample extraction probes and infrared analysers

At least every 2 years, or after significant changes in operating conditions

Division 2.2.4Method 3—Solid fuels

2.12  Method 3—solid fuels using oxidation factor or an estimated oxidation factor

             (1)  For subparagraph 2.3(1)(a)(iii) and subject to this section, method 3 is the same as method 2 whether using the oxidation factor under section 2.5 or using an estimated oxidation factor under section 2.6.

             (2)  In applying method 2 as mentioned in subsection (1), solid fuels must be sampled in accordance with the appropriate standard mentioned in the table in subsection (3).

             (3)  A standard for sampling a solid fuel mentioned in column 2 of an item in the following table is as set out in column 3 for that item:

 

Item

Fuel

Standard

1

Bituminous coal

AS 4264.1—2009

1A

Sub‑bituminous coal

AS 4264.1—2009

1B

Anthracite

AS 4264.1—2009

2

Brown coal

AS 4264.3—1996

3

Coking coal (metallurgical coal)

AS 4264.1—2009

4

Coal briquettes

AS 4264.3—1996

5

Coal coke

AS 4264.2—1996

6

Coal tar

 

7

Industrial materials and tyres that are derived from fossil fuels, if recycled and combusted to produce heat or electricity

CEN/TS 14778 – 1:2006

CEN/TS 15442:2006

8

Non‑biomass municipal materials, if recycled and combusted to produce heat or electricity

CEN/TS 14778 – 1:2005

CEN/TS 15442:2006

9

Dry wood

CEN/TS 14778 – 1:2005

CEN/TS 15442:2006

10

Green and air dried wood

CEN/TS 14778 – 1:2005

CEN/TS 15442:2006

11

Sulphite lyes

CEN/TS 14778 – 1:2005

CEN/TS 15442:2006

12

Bagasse

CEN/TS 14778 – 1:2005

CEN/TS 15442:2006

13

Primary solid biomass other than items 9 to 12 and 14 to 15

CEN/TS 14778 – 1:2005

CEN/TS 15442:2006

14

Charcoal

CEN/TS 14778 – 1:2005

CEN/TS 15442:2006

15

Biomass municipal and industrial materials, if recycled and combusted to produce heat or electricity

CEN/TS 14778 – 1:2005

CEN/TS 15442:2006

             (4)  A solid fuel may also be sampled in accordance with a standard that is equivalent to a standard set out in the table in subsection (3).

Note:          The analysis is carried out in accordance with the same requirements as for method 2.

Division 2.2.5Measurement of consumption of solid fuels

2.13  Purpose of Division

                   This Division sets out how quantities of solid fuels combusted from the operation of a facility are to be estimated for the purpose of working out the emissions released from the combustion of that fuel.

2.14  Criteria for measurement

             (1)  For the purpose of calculating the amount of solid fuel combusted from the operation of a facility during a year and, in particular, for Qi in sections 2.4, 2.5 and 2.6, the quantity of combustion must be estimated in accordance with this section.

Acquisition involves commercial transaction

             (2)  If the acquisition of the solid fuel involves a commercial transaction, the quantity of fuel combusted must be estimated using one of the following criteria:

                     (a)  the amount of the solid fuel delivered for the facility during the year as evidenced by invoices issued by the vendor of the fuel (criterion A);

                     (b)  as provided in section 2.15 (criterion AA);

                     (c)  as provided in section 2.16 (criterion AAA).

             (3)  If, during a year, criterion AA, or criterion AAA using paragraph 2.16(2)(a), is used to estimate the quantity of fuel combusted, then, in each year following that year, only criterion AA, or criterion AAA using paragraph 2.16(2)(a), (respectively) is to be used.

Acquisition does not involve commercial transaction

             (4)  If the acquisition of the solid fuel does not involve a commercial transaction, the quantity of fuel combusted must be estimated using one of the following criteria:

                     (a)  as provided in paragraph 2.16(2)(a) (criterion AAA);

                     (b)  as provided in section 2.17 (criterion BBB).

2.15  Indirect measurement at point of consumption—criterion AA

             (1)  For paragraph 2.14(2)(b), criterion AA is the amount of the solid fuel combusted from the operation of the facility during a year based on amounts delivered for the facility during the year as adjusted for the estimated change in the quantity of the stockpile of the fuel for the facility during the year.

             (2)  To work out the adjustment for the estimated change in the quantity of the stockpile of the fuel for the facility during the year, one of the following approaches must be used:

                     (a)  the survey approach mentioned in subsection (2C);

                     (b)  the error allowance approach mentioned in subsection (2D).

          (2A)  The approach selected must be consistent with the principles mentioned in section 1.13.

          (2B)  The same approach, once selected, must be used for the facility for each year unless:

                     (a)  there has been a material change in the management of the stockpile during the year; and

                     (b)  the change in the management of the stockpile results in the approach selected being less accurate than the alternative approach.

          (2C)  The survey approach is as follows:

Step 1.   Estimate the quantity of solid fuel in the stockpile by:

               (a)     working out the volume of the solid fuel in the stockpile using aerial or general survey in accordance with industry practice; and

              (b)     measuring the bulk density of the stockpile in accordance with subregulation (3).

Step 2.   Replace the current book quantity with the quantity estimated under step 1.

Step 3.   Maintain the book quantity replaced under step 2 by:

               (a)     adding deliveries made during the year, using:

                        (i)  invoices received for solid fuel delivered to the facility; or

                        (ii) solid fuel sampling and measurements provided by    measuring equipment calibrated to a measurement      requirement; and

              (b)     deducting from the amount calculated under paragraph (a), solid fuel consumed by the facility.

Step 4.   Use the book quantity maintained under step 3 to estimate the change in the quantity of the stockpile of the fuel.

          (2D)  The error allowance approach is as follows:

Step 1.   Estimate the quantity of the stockpile by:

               (a)     working out the volume of the solid fuel in the stockpile using aerial or general survey in accordance with industry practice; and

              (b)     measuring the bulk density of the stockpile in accordance with subregulation (3).

Step 2.   Estimate an error tolerance for the quantity of solid fuel in the stockpile. The error tolerance is an estimate of the uncertainty of the quantity of solid fuel in the stockpile and must be:

               (a)     based on stockpile management practices at the facility and the uncertainty associated with the energy content and proportion of carbon in the solid fuel; and

              (b)     consistent with the general principles in section 1.13; and

               (c)     not more than 6% of the estimated value of the solid fuel in the stockpile worked out under step 1.

Step 3.   Work out the percentage difference between the current book quantity and the quantity of solid fuel in the stockpile estimated under step 1.

Step 4.   If the percentage difference worked out under step 3 is within the error tolerance worked out under step 2, use the book quantity to estimate the change in the quantity of the stockpile of the fuel.

Step 5.   If the percentage difference worked out in step 3 is more than the error tolerance worked out in step 2:

               (a)     adjust the book quantity by the difference between the percentage worked out under step 3 and the error tolerance worked out under step 2; and

              (b)     use the book quantity adjusted under paragraph (a) to estimate the change in the quantity of the stockpile of the fuel.

             (3)  The bulk density of the stockpile must be measured in accordance with:

                     (a)  the procedure in ASTM D/6347/D 6347M‑99; or

                     (b)  the following procedure:

Step 1    If the mass of the stockpile:

               (a)     does not exceed 10% of the annual solid fuel combustion from the operation of a facility—extract a sample from the stockpile using a mechanical auger in accordance with ASTM D 4916‑89; or

              (b)     exceeds 10% of the annual solid fuel combustion — extract a sample from the stockpile by coring.

Step 2    Weigh the mass of the sample extracted.

Step 3    Measure the volume of the hole from which the sample has been extracted.

Step 4    Divide the mass obtained in step 2 by the volume measured in step 3.

 

             (4)  Quantities of solid fuel delivered for the facility must be evidenced by invoices issued by the vendor of the fuel.

             (5)  In this section:

book quantity means the quantity recorded and maintained by the facility operator as the quantity of solid fuel in the stockpile.

2.16  Direct measurement at point of consumption—criterion AAA

             (1)  For paragraph 2.14(2)(c), criterion AAA is the measurement during a year of the solid fuel combusted from the operation of the facility.

             (2)  The measurement must be carried out either:

                     (a)  at the point of combustion using measuring equipment calibrated to a measurement requirement; or

                     (b)  at the point of sale using measuring equipment calibrated to a measurement requirement.

             (3)  Paragraph (2)(b) only applies if:

                     (a)  the change in the stockpile of the fuel for the facility for the year is less than 1% of total combustion on average for the facility during the year; and

                     (b)  the stockpile of the fuel for the facility at the beginning of the year is less than 5% of total combustion for the year.

2.17  Simplified consumption measurements—criterion BBB

                   For paragraph 2.14(d), criterion BBB is the estimation of the solid fuel combusted during a year from the operation of the facility in accordance with industry practice if the equipment used to measure combustion of the fuel is not calibrated to a measurement requirement.

Note:          An estimate obtained using industry practice must be consistent with the principles in section 1.13.

Part 2.3Emissions released from the combustion of gaseous fuels

Division 2.3.1Preliminary

2.18  Application

                   This Part applies to emissions released from the combustion of gaseous fuels in relation to a separate instance of a source if the amount of gaseous fuel combusted in relation to the separate instance of the source is more than 1000 cubic metres.

2.19  Available methods

             (1)  Subject to section 1.18, for estimating emissions released from the combustion of a gaseous fuel consumed from the operation of a facility during a year:

                     (a)  one of the following methods must be used for estimating emissions of carbon dioxide:

                                       (i)  method 1 under section 2.20;

                             (ii)  method 2 under section 2.21;

                            (iii)  method 3 under section 2.26;

                            (iv)  method 4 under Part 1.3; and

                     (b)  one of the following methods must be used for estimating emissions of methane:

                              (i)  method 1 under section 2.20;

                             (ii)  method 2 under section 2.27; and

                     (c)  method 1 under section 2.20 must be used for estimating emissions of nitrous oxide.

Note:          The combustion of gaseous fuels releases emissions of carbon dioxide, methane and nitrous oxide. Method 1 is used to estimate emissions of each of these gases. There is no method 3 or 4 for emissions of methane and no method 2, 3 or 4 for emissions of nitrous oxide.

             (2)  However, for incidental emissions another method may be used that is consistent with the principles in section 1.13.

             (3)  Method 1 must not be used for estimating emissions of carbon dioxide for the main fuel combusted from the operation of the facility if:

                     (a)  the principal activity of the facility is electricity generation (ANZSIC industry classification and code 2611); and

                     (b)  the generating unit:

                              (i)  has the capacity to produce 30 megawatts or more of electricity; and

                             (ii)  generates more than 50 000 megawatt hours of electricity in a reporting year.

Division 2.3.2Method 1—emissions of carbon dioxide, methane and nitrous oxide

2.20  Method 1—emissions of carbon dioxide, methane and nitrous oxide

             (1)  For subparagraphs 2.19(1)(a)(i) and (b)(i) and paragraph 2.19(1)(c), method 1 for estimating emissions of carbon dioxide, methane and nitrous oxide is:

                  

where:

Eij is the emissions of gas type (j), being carbon dioxide, methane or nitrous oxide, from each gaseous fuel type (i) released from the operation of the facility during the year measured in CO2‑e tonnes.

Qi is the quantity of fuel type (i) combusted, whether for stationary energy purposes or transport energy purposes, from the operation of the facility during the year measured in cubic metres or gigajoules and estimated under Division 2.3.6.

ECis the energy content factor of fuel type (i) estimated under section 6.5.

EFijoxec is the emission factor for each gas type (j) released during the year (which includes the effect of an oxidation factor) measured in kilograms CO2‑e per gigajoule of fuel type (i) according to source as mentioned in:

                     (a)  for stationary energy purposes—Part 2 of Schedule 1; and

                     (b)  for transport energy purposes—Division 4.1 of Schedule 1.

Note:          The combustion of gaseous fuels releases emissions of carbon dioxide, methane and nitrous oxide.

             (2)  In this section:

stationary energy purposes means purposes for which fuel is combusted that do not involve transport energy purposes.

transport energy purposes includes purposes for which fuel is combusted that consist of any of the following:

                     (a)  transport by vehicles registered for road use;

                     (b)  rail transport;

                     (c)  marine navigation;

                     (d)  air transport.

Note:          The combustion of gaseous fuels releases emissions of carbon dioxide, methane and nitrous oxide.

Division 2.3.3Method 2—emissions of carbon dioxide from the combustion of gaseous fuels

Subdivision 2.3.3.1Method 2—emissions of carbon dioxide from the combustion of gaseous fuels

2.21  Method 2—emissions of carbon dioxide from the combustion of gaseous fuels

             (1)  For subparagraph 2.19(1)(a)(ii), method 2 for estimating emissions of carbon dioxide is:

                  

where:

EiCO2 is emissions of carbon dioxide released from fuel type (i) combusted from the operation of the facility during the year measured in CO2‑e tonnes.

Qi is the quantity of fuel type (i) combusted from the operation of the facility during the year measured in cubic metres or gigajoules and estimated under Division 2.3.6.

ECis the energy content factor of fuel type (i) estimated under section 6.5.

EFiCO2oxec is the carbon dioxide emission factor for fuel type (i) measured in kilograms CO2‑e per gigajoule and calculated in accordance with section 2.22.

γ is the factor 1.861 × 10‑3 for converting a quantity of carbon dioxide from cubic metres at standard conditions of pressure and temperature to CO2‑e tonnes.

RCCSCO2 is carbon dioxide captured for permanent storage measured in cubic metres in accordance with Division 1.2.3.

2.22  Calculation of emission factors from combustion of gaseous fuel

             (1)  For section 2.21, the emission factor EFiCO2oxec from the combustion of fuel type (i) must be calculated from information on the composition of each component gas type (y) and must first estimate EFi,CO2,ox,kg in accordance with the following formula:

                  

where:

EFi,CO2,ox,kg is the carbon dioxide emission factor for fuel type (i), incorporating the effects of a default oxidation factor expressed as kilograms of carbon dioxide per kilogram of fuel.

moly%, for each component gas type (y), is that gas type’s share of 1 mole of fuel type (i), or that gas type’s share of the total volume of fuel type (i), expressed as a percentage.

mwy, for each component gas type (y), is the molecular weight of the component gas type (y) measured in kilograms per kilomole.

V is the volume of 1 kilomole of the gas at standard conditions and equal to 23.6444 cubic metres.

dy, total is as set out in subsection (2).

fy for each component gas type (y), is the number of carbon atoms in a molecule of the component gas type (y).

OFg is the oxidation factor 1.0 applicable to gaseous fuels.

             (2)  For subsection (1), the factor dy, total is worked out using the following formula:

                  

where:

moly%, for each component gas type (y), is that gas type’s share of 1 mole of fuel type (i), or that gas type’s share of the total volume of fuel type (i), expressed as a percentage.

mwy, for each component gas type (y), is the molecular weight of the component gas type (y) measured in kilograms per kilomole.

             (3)  For subsection (1), the molecular weight and number of carbon atoms in a molecule of each component gas type (y) mentioned in column 2 of an item in the following table is as set out in columns 3 and 4, respectively, for the item:

 

Item

Component gas y

Molecular Wt (kg/kmole)

Number of carbon atoms in component molecules

1

Methane

16.043

1

2

Ethane

30.070

2

3

Propane

44.097

3

4

Butane

58.123

4

5

Pentane

72.150

5

6

Carbon monoxide

28.016

1

7

Hydrogen

2.016

0

8

Hydrogen sulphide

34.082

0

9

Oxygen

31.999

0

10

Water

18.015

0

11

Nitrogen

28.013

0

12

Argon

39.948

0

13

Carbon dioxide

44.010

1

             (4)  The carbon dioxide emission factor EFiCO2oxec derived from the calculation in subsection (1) must be expressed in terms of kilograms of carbon dioxide per gigajoule calculated using the following formula:

                  

where:

ECi is the energy content factor of fuel type (i), measured in gigajoules per cubic metre that is:

                     (a)  mentioned in column 3 of Part 2 of Schedule 1; or

                     (b)  estimated by analysis under Subdivision 2.3.3.2.

Ci is the density of fuel type (i) expressed in kilograms of fuel per cubic metre as obtained under subsection 2.24(4).

Subdivision 2.3.3.2Sampling and analysis

2.23  General requirements for sampling under method 2

             (1)  A sample of the gaseous fuel must be derived from a composite of amounts of the gaseous fuel combusted.

             (2)  The samples must be collected on enough occasions to produce a representative sample.

             (3)  The samples must also be free of bias so that any estimates are neither over nor under estimates of the true value.

             (4)  Bias must be tested in accordance with an appropriate standard (if any).

             (5)  The value obtained from the samples must only be used for the delivery period, usage period or consignment of the gaseous fuel for which it was intended to be representative.

2.24  Standards for analysing samples of gaseous fuels

             (1)  Samples of gaseous fuels of a type mentioned in column 2 of an item in the following table must be analysed in accordance with one of the standards mentioned in:

                     (a)  for analysis of energy content—column 3 for that item; and

                     (b)  for analysis of gas composition—column 4 for that item.

 

Item

Fuel type

Energy content

Gas Composition

1

Natural gas if distributed in a pipeline

ASTM D 1826—94 (2003)

ASTM D 7164—05

ASTM 3588—98 (2003)

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

ISO 6976:1995

GPA 2172—96

ASTM D 1945—03

ASTM D 1946—90 (2006)

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

GPA 2145 – 03

GPA 2261 – 00

2

Coal seam methane that is captured for combustion

ASTM D 1826—94 (2003)

ASTM D 7164—05

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

ISO 6976:1995

GPA 2172—96

ASTM D 1945—03

ASTM D 1946—90 (2006)

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

GPA 2145 – 03

GPA 2261 – 00

3

Coal mine waste gas that is captured for combustion

ASTM D 1826 – 94 (2003)

ASTM D 7164 – 05

ASTM 3588—98 (2003)

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

ISO 6976:1995

GPA 2172—96

ASTM D 1945 – 03

ASTM D 1946 – 90 (2006)

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

GPA 2145 – 03

GPA 2261 – 00

4

Compressed natural gas

ASTM 3588—98 (2003)

N/A

5

Unprocessed natural gas

ASTM D 1826—94 (2003)

ASTM D 7164—05

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

ISO 6976:1995

GPA 2172—96

ASTM D 1945—03

ASTM D 1946—90 (2006)

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

GPA 2145 – 03

GPA 2261 – 00

6

Ethane

ASTM D 3588 – 98 (2003)

IS0 6976:1995

ASTM D 1945 – 03

ASTM D 1946 – 90 (2006)

7

Coke oven gas

ASTM D 3588—98 (2003)

ISO 6976:1995

ASTM D 1945—03

ASTM D 1946—90 (2006)

8

Blast furnace gas

ASTM D 3588—98 (2003)

ISO 6976:1995

ASTM D 1945—03

ASTM D 1946—90 (2006)

9

Town gas

ASTM D 1826—94 (2003)

ASTM D 7164—05

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

ISO 6976:1995

GPA 2172—96

ASTM D 1945—03

ASTM D 1946—90 (2006)

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

GPA 2145 – 03

GPA 2261 – 00

10

Liquefied natural gas

ISO 6976:1995

ASTM D 1945 – 03

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

11

Landfill biogas that is captured for combustion

ASTM D 1826—94 (2003)

ASTM D 7164—05

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

ISO 6976:1995

GPA 2172—96

ASTM D 1945—03

ASTM D 1946—90 (2006)

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

GPA 2145 – 03

GPA 2261 – 00

12

Sludge biogas that is captured for combustion

ASTM D 1826 – 94 (2003)

ASTM D 7164 – 05

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

ISO 6976:1995

GPA 2172—96

ASTM D 1945 – 03

ASTM D 1946 – 90 (2006)

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

part 5 (2000)

part 6 (2002)

GPA 2145 – 03

GPA 2261 – 00

13

A biogas that is captured for combustion, other than those mentioned in items 11 and 12

ASTM D 1826—94 (2003)

ASTM D 7164—05

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

ASTM D 1945—03

ASTM D 1946—90 (2006)

ISO 6974

part 1 (2000)

part 2 (2001)

part 3 (2000)

part 4 (2000)

 

 

part 4 (2000)

part 5 (2000)

part 6 (2002)

part 5 (2000)

part 6 (2002)

GPA 2145 – 03

 

 

ISO 6976:1995

GPA 2172—96

GPA 2261 – 00

             (2)  A gaseous fuel mentioned in column 2 of an item in the table in subsection (1) may also be analysed in accordance with a standard that is equivalent to a standard set out in column 3 and 4 of the item.

             (3)  The analysis must be undertaken:

                     (a)  by an accredited laboratory; or

                     (b)  by a laboratory that meets requirements that are equivalent to the requirements in AS ISO/IEC 17025:2005; or

                     (c)  using an online analyser if:

                              (i)  the online analyser is calibrated in accordance with an appropriate standard; and

                             (ii)  the online analysis is undertaken in accordance with this section.

Note:          An example of an appropriate standard is ISO 6975:1997—Natural gas—Extended analysis—Gas‑chromatographic method.

             (4)  The density of a gaseous fuel mentioned in column 2 of an item in the table in subsection (1) must be analysed in accordance with ISO 6976:1995 or in accordance with a standard that is equivalent to that standard.

2.25  Frequency of analysis

                   Gaseous fuel of a type mentioned in column 2 of an item in the following table must be analysed for the parameter mentioned in column 3 for that item at least at the frequency mentioned in column 4 for that item.

 

Item

Fuel

Parameter

Frequency

1

Pipeline quality gases

Gas composition

Energy content

Monthly

Monthly—if category 1 or 2 gas measuring equipment is used

Continuous—if category 3 or 4 gas measuring equipment is used

2

All other gases (including fugitive emissions)

Gas composition

Energy content

Monthly, unless the reporting corporation or liable entity certifies in writing that such frequency of analysis will cause significant hardship or expense in which case the analysis may be undertaken at a frequency that will allow an unbiased estimate to be obtained

Note:          The table in section 2.31 sets out the categories of gas measuring equipment.

Division 2.3.4Method 3—emissions of carbon dioxide released from the combustion of gaseous fuels

2.26  Method 3—emissions of carbon dioxide from the combustion of gaseous fuels

             (1)  For subparagraph 2.19(1)(a)(iii) and subject to subsection (2), method 3 for estimating emissions of carbon dioxide is the same as method 2 under section 2.21.

             (2)  In applying method 2 under section 2.21, gaseous fuels must be sampled in accordance with a standard specified in the table in subsection (3).

             (3)  A standard for sampling a gaseous fuel mentioned column 2 of an item in the following table is the standard specified in column 3 for that item.

 

Item

Gaseous fuel

Standard

1

Natural gas if distributed in a pipeline

ISO 10715:1997

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

GPA 2166–05

2

Coal seam methane that is captured for combustion

ISO 10715:1997

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

GPA 2166–05

3

Coal mine waste gas that is captured for combustion

ISO 10715:1997

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

GPA 2166–05

4

Compressed natural gas

ASTM F 307–02 (2007)

5

Unprocessed natural gas

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

GPA 2166–05

6

Ethane

ISO 10715:1997

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

7

Coke oven gas

ISO 10715 ‑1997

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

8

Blast furnace gas

ISO 10715:1997

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

9

Town gas

ISO 10715:1997

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

GPA 2166–05

10

Liquefied natural gas

ISO 8943:2007

11

Landfill biogas that is captured for combustion

ISO 10715:1997

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

GPA 2166–05

12

Sludge biogas that is captured for combustion

ISO 10715:1997

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

GPA 2166–05

13

A biogas that is captured for combustion, other than those mentioned in items 11 and 12

ISO 10715:1997

ASTM D 5287–97 (2002)

ASTM F 307–02 (2007)

ASTM D 5503–94 (2003)

GPA 2166–05

             (4)  A gaseous fuel mentioned in column 2 of an item in the table in subsection (3) may also be sampled in accordance with a standard that is equivalent to a standard specified in column 3 for that item.

Division 2.3.5Method 2—emissions of methane from the combustion of gaseous fuels

2.27  Method 2—emissions of methane from the combustion of gaseous fuels

             (1)  For subparagraph 2.19(1)(b)(ii) and subject to subsection (2), method 2 for estimating emissions of methane is the same as method 1 under section 2.20.

             (2)  In applying method 1 under section 2.20, the emission factor EFijoxec is to be obtained by using the equipment type emission factors set out in Volume 2, section 2.3.2.3 of the 2006 IPCC Guidelines corrected to gross calorific values.

Division 2.3.6Measurement of quantity of gaseous fuels

2.28  Purpose of Division

                   This Division sets out how quantities of gaseous fuels combusted from the operation of a facility are to be estimated for the purpose of working out the emissions released from the combustion of that fuel.

2.29  Criteria for measurement

             (1)  For the purposes of calculating the combustion of gaseous fuel from the operation of a facility for a year and, in particular, for Qi in sections 2.20 and 2.21, the combustion must be estimated in accordance with this section.

Acquisition involves commercial transaction

             (2)  If the acquisition of the gaseous fuel involves a commercial transaction, the quantity of fuel combusted must be estimated using one of the following criteria:

                     (a)  the amount of the gaseous fuel, expressed in cubic metres or gigajoules, delivered for the facility during the year as evidenced by invoices issued by the vendor of the fuel (criterion A);

                     (b)  as provided in section 2.30 (criterion AA);

                     (c)  as provided in section 2.31 (criterion AAA).

             (3)  If, during a year, criterion AA, or criterion AAA using paragraph 2.31(3)(a), is used to estimate the quantity of fuel combusted, then, in each year following that year, only criterion AA, or criterion AAA using paragraph 2.31(3)(a), (respectively) is to be used.

Acquisition does not involve commercial transaction

             (4)  If the acquisition of the gaseous fuel does not involve a commercial transaction, the quantity of fuel combusted must be estimated using one of the following criteria:

                     (a)  as provided in section 2.31 (criterion AAA);

                     (b)  as provided in section 2.38 (criterion BBB).

2.30  Indirect measurement—criterion AA

                   For paragraph 2.29(2)(b), criterion AA is the amount of a gaseous fuel combusted from the operation of the facility during the year based on amounts delivered during the year (evidenced by invoices) as adjusted for the estimated change in the quantity of the stockpile of the fuel for the facility during the year.

2.31  Direct measurement—criterion AAA

             (1)  For paragraph 2.29(2)(c), criterion AAA is the measurement during the year of a gaseous fuel combusted from the operation of the facility.

             (2)  In measuring the quantity of gaseous fuel, the quantities of gas must be measured:

                     (a)  using volumetric measurement in accordance with:

                              (i)  for gases other than super‑compressed gases—section 2.32; and

                             (ii)  for super‑compressed gases—sections 2.32 and 2.33; and

                     (b)  using gas measuring equipment that complies with section 2.34.

             (3)  The measurement must be either:

                     (a)  carried out at the point of combustion using gas measuring equipment that:

                              (i)  is in a category specified in column 2 of an item in the table in subsection (4) according to the maximum daily quantity of gas combusted from the operation of the facility specified, for the item, in column 3 of the table; and

                             (ii)  complies with the transmitter and accuracy requirements specified, for the item, in column 4 of the table, if the requirements are applicable to the gas measuring equipment being used; or

                     (b)  carried out at the point of sale of the gaseous fuels using measuring equipment that complies with paragraph (a).

             (4)  For subsection (3), the table is as follows:

 

Item

Gas measuring equipment category

Maximum daily quantity of gas combusted (GJ/day)

Transmitter and accuracy requirements (% of range)

1

1

0–1750

Pressure <±0.25%

Diff. pressure <±0.25%

Temperature <±0.50%

2

2

1751–3500

Pressure <±0.25%

Diff. pressure <±0.25%

Temperature <±0.50%

3

3

3501–17500

Smart transmitters:

Pressure <±0.10%

Diff. pressure <±0.10%

Temperature <±0.25%

4

4

17501 or more

Smart transmitters:

Pressure <±0.10%

Diff. pressure <±0.10%

Temperature <±0.25%

             (5)  Paragraph (3)(b) only applies if:

                     (a)  the change in the stockpile of the fuel for the facility for the year is less than 1% of total consumption on average for the facility during the year; and

                     (b)  the stockpile of the fuel for the facility at the beginning of the year is less than 5% of total consumption of the fuel from the operation of the facility during the year.

2.32  Volumetric measurement—all natural gases

             (1)  For subparagraph 2.31(2)(a)(i) and (ii), volumetric measurement must be calculated at standard conditions and expressed in cubic metres.

             (2)  The volumetric measurement must be calculated using a flow computer that measures and analyses the following at the delivery location of the gaseous fuel:

                     (a)  flow;

                     (b)  relative density;

                     (c)  gas composition.

             (3)  The volumetric flow rate must be:

                     (a)  continuously recorded; and

                     (b)  continuously integrated using an integration device.

          (3A)  The integration device must be isolated from the flow computer in such a way that, if the computer fails, the integration device will retain:

                     (a)  the last reading that was on the computer immediately before the failure; or

                     (b)  the previously stored information that was on the computer immediately before the failure.

             (4)  All measurements, calculations and procedures used in determining volume (except for any correction for deviation from the ideal gas law) must be made in accordance with:

                     (a)  the instructions mentioned in subsection (5); or

                     (b)  an appropriate internationally recognised standard or code.

Note:          An example of an internationally recognised equivalent standard is New Zealand standard NZS 5259:2004.

             (5)  For paragraph (4)(a), the instructions are those mentioned in:

                     (a)  for orifice plate measuring systems:

                              (i)  the publication entitled AGA Report No. 3, Orifice Metering of Natural Gas and Other Related Hydrocarbon Fluids Part 3: Natural Gas Applications, published by the American Gas Association in August 1992; or

                             (ii)  Parts 1 to 4 of the publication entitled ANSI/API MPMS Chapter 14.3 Part 2 (R2011) Natural Gas Fluids Measurement: Concentric, Square‑Edged Orifice Meters ‑ Part 2: Specification and Installation Requirements, 4th edition, published by the American Petroleum Institute on 30 April 2000;

                     (b)  for turbine measuring systems—the publication entitled AGA Report No. 7, Measurement of Natural Gas by Turbine Meter (2006), published by the American Gas Association on 1 January 2006;

                     (c)  for positive displacement measuring systems—the publication entitled ANSI B109.3—2000, Rotary Type Gas Displacement Meters, published by the American Gas Association on 13 April 2000.

             (6)  Measurements must comply with Australian legal units of measurement.

             (7)  Standard conditions means, as measured on a dry gas basis:

                     (a)  air pressure of 101.325 kilopascals; and

                     (b)  air temperature of 15.0 degrees Celsius; and

                     (c)  air density of 1.225 kilograms per cubic metre.

2.33  Volumetric measurement—super‑compressed gases

             (1)  For subparagraph 2.31(2)(a)(ii), this section applies in relation to measuring the volume of super‑compressed natural gases.

             (2)  If it is necessary to correct the volume for deviation from the ideal gas law, the correction must be determined using the relevant method set out in the publication entitled AGA Report No. 8, Compressibility Factor of Natural Gas and Related Hydrocarbon Gases (1994), published by the American Gas Association on 1 January 1994.

             (3)  The measuring equipment used must calculate super‑compressibility by:

                     (a)  if the measuring equipment is category 3 or 4 equipment in accordance with the table in section 2.31—using gas composition data; or

                     (b)  if the measuring equipment is category 1 or 2 equipment in accordance with the table in section 2.31—using an alternative method set out in the publication entitled AGA Report No. 8, Compressibility Factor of Natural Gas and Related Hydrocarbon Gases (1994), published by the American Gas Association on 1 January 1994.

2.34  Gas measuring equipment—requirements

                   For paragraph 2.31(2)(b), gas measuring equipment that is category 3 or 4 equipment in accordance with column 2 of the table in section 2.31 must comply with the following requirements:

                     (a)  if the equipment uses flow devices—the requirements relating to flow devices set out in section 2.35;

                     (b)  if the equipment uses flow computers—the requirement relating to flow computers set out in section 2.36;

                     (c)  if the equipment uses gas chromatographs—the requirements relating to gas chromatographs set out in section 2.37.

2.35  Flow devices—requirements

          (1A)  This section is made for paragraph 2.34(a).

             (1)  If the measuring equipment has flow devices that use orifice measuring systems, the flow devices must be constructed in a manner that ensures that the maximum uncertainty of the discharge coefficient is not greater than ±1.5%.

Note:          The publication entitled AGA Report No. 3, Orifice Metering of Natural Gas and Other Related Hydrocarbon Fluids Part 3: Natural Gas Applications, published by the American Gas Association in August 1992, sets out a manner of construction that ensures that the maximum uncertainty of the discharge coefficient is not greater than ±1.5%.

             (2)  If the measuring equipment has flow devices that use turbine measuring systems, the flow devices must be installed in a manner that ensures that the maximum uncertainty of the flow measurement is not greater than ±1.5%.

Note:          The publication entitled AGA Report No. 8, Compressibility Factor of Natural Gas and Related Hydrocarbon Gases (1994), published by the American Gas Association on 1 January 1994, sets out a manner of installation that ensures that the maximum uncertainty of the flow measurement is not greater than ±1.5%.

             (3)  If the measuring equipment has flow devices that use positive displacement measuring systems, the flow devices must be installed in a manner that ensures that the maximum uncertainty of flow is ±1.5%.

Note:          The publication entitled ANSI B109.3—2000, Rotary Type Gas Displacement Meters, published by the American Gas Association on 13 April 2000, sets out a manner of installation that ensures that the maximum uncertainty of flow is ±1.5%.

             (4)  If the measuring equipment uses any other type of flow device, the maximum uncertainty of flow measurement must not be greater than ±1.5%.

             (5)  All flow devices that are used by gas measuring equipment in a category specified in column 2 of an item in the table in section 2.31 must, wherever possible, be calibrated for pressure, differential pressure and temperature:

                     (a)  in accordance with the requirements specified, for the item, in column 4 of the table; and

                     (b)  taking into account the effects of static pressure and ambient temperature.

2.36  Flow computers—requirements

                   For paragraph 2.34(b), the requirement is that the flow computer that is used by the equipment for measuring purposes must record:

                     (a)  the instantaneous values for all primary measurement inputs; and

                     (b)  the following outputs:

                              (i)  instantaneous corrected volumetric flow;

                             (ii)  cumulative corrected volumetric flow;

                            (iii)  for turbine and positive displacement metering systems—instantaneous uncorrected volumetric flow;

                            (iv)  for turbine and positive displacement metering systems—cumulative uncorrected volumetric flow;

                             (v)  super‑compressibility factor.

2.37  Gas chromatographs—requirements

                   For paragraph 2.34(c), the requirements are that gas chromatographs used by the measuring equipment must:

                     (a)  be factory tested and calibrated using a measurement standard:

                              (i)  produced by gravimetric methods; and

                             (ii)  that uses Australian legal units of measurement; and

                     (b)  perform gas composition analysis with an accuracy of:

                              (i)  ±0.15% for use in calculation of gross calorific value; and

                             (ii)  ±0.25% for calculation of relative density; and

                     (c)  include a mechanism for re‑calibration against a certified reference gas.

2.38  Simplified consumption measurements—criterion BBB

             (1)  For paragraph 2.29(4)(b), criterion BBB is the estimation of gaseous fuel in accordance with industry practice if the measuring equipment used to estimate consumption of the fuel does not meet the requirements of criterion AAA.

             (2)  For sources of landfill gas captured for the purpose of combustion for the production of electricity:

                     (a)  the energy content of the captured landfill gas may be estimated:

                              (i)  if the manufacturer’s specification for the internal combustion engine used to produce the electricity specifies an electrical efficiency factor—by using that factor; or

                             (ii)  if the manufacturer’s specification for the internal combustion engine used to produce the electricity does not specify an electrical efficiency factor—by assuming that measured electricity dispatched for sale (sent out generation) represents 36% of the energy content of all fuel used to produce electricity; and

                     (b)  the quantity of landfill gas captured in cubic metres may be derived from the energy content of the relevant gas set out in Part 2 of Schedule 1.

Part 2.4Emissions released from the combustion of liquid fuels

Division 2.4.1Preliminary

2.39  Application

                   This Part applies to emissions released from:

                     (a)  the combustion of petroleum based oil (other than petroleum based oil used as fuel) or petroleum based grease, in relation to a separate instance of a source, if the total amount of oil and grease combusted in relation to the separate instance of the source is more than 5 kilolitres; and

                     (b)  for a liquid fuel not of the kind mentioned in paragraph (a)—the combustion of liquid fuel in relation to a separate instance of a source, if the total amount of liquid fuel combusted in relation to the separate instance of the source is more than 1 kilolitre.

2.39A  Definition of petroleum based oils for Part 2.4

                   In this Part:

petroleum based oils means petroleum based oils (other than petroleum based oils used as fuel).

Subdivision 2.4.1.1Liquid fuels—other than petroleum based oils and greases

2.40  Available methods

             (1)  Subject to section 1.18, for estimating emissions released from the combustion of a liquid fuel, other than petroleum based oils and petroleum based greases, consumed from the operation of a facility during a year:

                     (a)  one of the following methods must be used for estimating emissions of carbon dioxide:

                                       (i)  method 1 under section 2.41;

                             (ii)  method 2 under section 2.42;

                            (iii)  method 3 under section 2.47;

                            (iv)  method 4 under Part 1.3; and

                     (b)  one of the following methods must be used for estimating emissions of methane and nitrous oxide:

                              (i)  method 1 under section 2.41;

                             (ii)  method 2 under section 2.48.

             (2)  Under paragraph (1)(b), the same method must be used for estimating emissions of methane and nitrous oxide.

             (3)  However, for incidental emissions another method may be used that is consistent with the principles in section 1.13.

Note:          The combustion of liquid fuels releases emissions of carbon dioxide, methane and nitrous oxide. Method 1 may be used to estimate emissions of each of these gases. There is no method 3 or 4 for emissions of methane or nitrous oxide.

Subdivision 2.4.1.2Liquid fuels—petroleum based oils and greases

2.40A  Available methods

             (1)  Subject to section 1.18, for estimating emissions of carbon dioxide released from the consumption, as lubricants, of petroleum based oils or petroleum based greases, consumed from the operation of a facility during a year, one of the following methods must be used:

                     (a)  method 1 under section 2.48A;

                     (b)  method 2 under section 2.48B;

                     (c)  method 3 under section 2.48C.

             (2)  However, for incidental emissions, another method may be used that is consistent with the principles in section 1.13. 

Note:          The consumption of petroleum based oils and greases, as lubricants, releases emissions of carbon dioxide.  Emissions of methane and nitrous oxide are not estimated directly for this fuel type.

Division 2.4.2Method 1—emissions of carbon dioxide, methane and nitrous oxide from liquid fuels other than petroleum based oils or greases

2.41  Method 1—emissions of carbon dioxide, methane and nitrous oxide

             (1)  For subparagraphs 2.40(1)(a)(i) and (b)(i), method 1 for estimating emissions of carbon dioxide, methane and nitrous oxide is:

                  

where:

Eij is the emissions of gas type (j), being carbon dioxide, methane or nitrous oxide, released from the combustion of fuel type (i) from the operation of the facility during the year measured in CO2‑e tonnes.

Qi is the quantity of fuel type (i) combusted from the operation of the facility for:

                     (a)  stationary energy purposes; and

                     (b)  transport energy purposes;

during the year measured in kilolitres and estimated under Division 2.4.6.

ECis the energy content factor of fuel type (i) estimated under section 6.5.

EFijoxec is the emission factor for each gas type (j) released from the operation of the facility during the year (which includes the effect of an oxidation factor) measured in kilograms CO2‑e per gigajoule of fuel type (i) according to source as mentioned in:

                     (a)  for stationary energy purposes—Part 3 of Schedule 1; and

                     (b)  for transport energy purposes—Division 4.1 of Schedule 1.

             (2)  In this section:

stationary energy purposes means purposes for which fuel is combusted that do not involve transport energy purposes.

transport energy purposes includes purposes for which fuel is combusted that consist of any of the following:

                     (a)  transport by vehicles registered for road use;

                     (b)  rail transport;

                     (c)  marine navigation;

                     (d)  air transport.

Note:          The combustion of liquid fuels produces emissions of carbon dioxide, methane and nitrous oxide.

Division 2.4.3Method 2—emissions of carbon dioxide from liquid fuels other than petroleum based oils or greases

Subdivision 2.4.3.1Method 2—emissions of carbon dioxide from liquid fuels other than petroleum based oils or greases

2.42  Method 2—emissions of carbon dioxide from the combustion of liquid fuels 

             (1)  For subparagraph 2.40(1)(a)(ii), method 2 for estimating emissions of carbon dioxide is:

                  

where:

EiCO2 is the emissions of carbon dioxide released from the combustion of fuel type (i) from the operation of the facility during the year measured in CO2‑e tonnes.

Qi is the quantity of fuel type (i) combusted from the operation of the facility during the year measured in kilolitres .

ECi is the energy content factor of fuel type (i) estimated under section 6.5.

EFiCO2oxec is the carbon dioxide emission factor for fuel type (i) measured in kilograms of CO2‑e per gigajoule.

γ is the factor 1.861 × 10‑3 for converting a quantity of carbon dioxide from cubic metres at standard conditions of pressure and temperature to CO2‑e tonnes.

RCCSCO2 is carbon dioxide captured for permanent storage measured in cubic metres in accordance with Division 1.2.3.

             (2)  Method 2 requires liquid fuels to be sampled and analysed in accordance with the requirements in sections 2.44, 2.45 and 2.46.

2.43  Calculation of emission factors from combustion of liquid fuel

             (1)  For section 2.42, the emission factor EFi,CO2,ox,ec from the combustion of fuel type (i) must allow for oxidation effects and must first estimate EFi,co2,ox,kg in accordance with the following formula:

                  

where:

Ca is the carbon in the fuel expressed as a percentage of the mass of the fuel as received, as sampled, or as combusted, as the case may be.

OFi is the oxidation factor 1.0 applicable to liquid fuels.

Note:          3.664 converts tonnes of carbon to tonnes of carbon dioxide.

             (2)  The emission factor derived from the calculation in subsection (1), must be expressed in kilograms of carbon dioxide per gigajoule calculated using the following formula:

                  

where:

ECi is the energy content factor of fuel type (i) estimated under subsection 2.42(1).

Ci is the density of the fuel expressed in kilograms of fuel per thousand litres as obtained using a Standard set out in section 2.45.

Subdivision 2.4.3.2Sampling and analysis

2.44  General requirements for sampling under method 2

             (1)  A sample of the liquid fuel must be derived from a composite of amounts of the liquid fuel.

             (2)  The samples must be collected on enough occasions to produce a representative sample.

             (3)  The samples must also be free of bias so that any estimates are neither over nor under estimates of the true value.

             (4)  Bias must be tested in accordance with an appropriate standard (if any).

             (5)  The value obtained from the samples must only be used for the delivery period or consignment of the liquid fuel for which it was intended to be representative.

2.45  Standards for analysing samples of liquid fuels

             (1)  Samples of liquid fuel of a type mentioned in column 2 of an item in the following table must be analysed in accordance with a standard (if any) mentioned in:

                     (a)  for energy content analysis—column 3 for that item; and

                     (b)  for carbon analysis—column 4 for that item; and

                     (c)  density analysis—column 5 for that item.

 

Item

Fuel

Energy Content

Carbon

Density

1

Petroleum based oils (other than petroleum based oils used as fuel)

N/A

ASTM D 5291‑02 (2007)

ASTM D 1298 – 99 (2005)

2

Petroleum based greases

N/A

ASTM D 5291‑02 (2007)

ASTM D 1298 – 99 (2005)

3

Crude oil including crude oil condensates

ASTM D 240‑02 (2007)

ASTM D 4809‑06

ASTM D 5291‑02 (2007)

ASTM D 1298 – 99 (2005) ASTM D 5002 – 99 (2005)

4

Other natural gas liquids

N/A

N/A

ASTM D 1298 – 99 (2005)

5

Gasoline (other than for use as fuel in an aircraft)

ASTM D 240‑02 (2007)

ASTM D 4809‑06

N/A

ASTM D 1298 – 99 (2005)

6

Gasoline for use as fuel in an aircraft

ASTM D 240‑02 (2007)

ASTM D 4809‑06

N/A

ASTM D 1298 – 99 (2005)

7

Kerosene (other than for use as fuel in an aircraft)

ASTM D 240‑02 (2007)

ASTM D 4809‑06

N/A

ASTM D 1298 – 99 (2005) ASTM D 4052 – 96 (2002) e1

8

Kerosene for use as fuel in an aircraft

ASTM D 240‑02 (2007)

ASTM D 4809‑06

N/A

ASTM D 1298 – 99 (2005) ASTM D 4052 – 96 (2002) e1

9

Heating oil

ASTM D 240‑02 (2007)

ASTM D 4809‑06

ASTM D 5291‑02 (2007)

ASTM D 1298 – 99 (2005)

10

Diesel oil

ASTM D 240‑02 (2007)

ASTM D 4809‑06

ASTM D 5291‑02 (2007)

ASTM D 1298 – 99 (2005)

11

Fuel oil

ASTM D 240‑02 (2007)

ASTM D 4809‑06

ASTM D 5291‑02 (2007)

ASTM D 1298 – 99 (2005)

12

Liquefied aromatic hydrocarbons

N/A

N/A

ASTM D 1298 – 99 (2005)

13

Solvents if mineral turpentine or white spirits

N/A

N/A

N/A

14

Liquefied Petroleum Gas

N/A

ISO 7941:1988

ISO 6578:1991

ISO 8973:1997

ASTM D 1657 – 02

15

Naphtha

N/A

N/A

N/A

16

Petroleum coke

N/A

N/A

N/A

17

Refinery gas and liquids

N/A

N/A

N/A

18

Refinery coke

N/A

N/A

N/A

19

Petroleum based products other than:

(a) petroleum based oils and petroleum based greases mentioned in items 1and 2

(b) the petroleum based products mentioned in items 3 to 18

N/A

N/A

N/A

20

Biodiesel

N/A

N/A

N/A

21

Ethanol for use as a fuel in an internal combustion engine

N/A

N/A

N/A

22

Biofuels other than those mentioned in items 20 and 21

N/A

N/A

N/A

             (2)  A liquid fuel of a type mentioned in column 2 of an item in the table in subsection (1) may also be analysed for energy content, carbon and density in accordance with a standard that is equivalent to a standard mentioned in columns 3, 4 and 5 for that item.

             (3)  Analysis must be undertaken by an accredited laboratory or by a laboratory that meets requirements equivalent to those in AS ISO/IEC 17025:2005.

2.46  Frequency of analysis

                   Liquid fuel of a type mentioned in column 2 of an item in the following table must be analysed for the parameter mentioned in column 3 for that item at least at the frequency mentioned in column 4 for that item.

 

Item

Fuel

Parameter

Frequency

1

All types of liquid fuel

Carbon

Quarterly or by delivery of the fuel

2

All types of liquid fuel

Energy

Quarterly or by delivery of the fuel

Division 2.4.4Method 3—emissions of carbon dioxide from liquid fuels other than petroleum based oils or greases

2.47  Method 3—emissions of carbon dioxide from the combustion of liquid fuels

             (1)  For subparagraph 2.40(1)(a)(iii) and subject to this section, method 3 for estimating emissions of carbon dioxide is the same as method 2 under section 2.42.

             (2)  In applying method 2 under section 2.42, liquid fuels must be sampled in accordance with a standard specified in the table in subsection (3).

             (3)  A standard for sampling a liquid fuel of a type mentioned in column 2 of an item in the following table is specified in column 3 for that item.

 

item

Liquid Fuel

Standard

1

Petroleum based oils (other than petroleum based oils used as fuel)

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

2

Petroleum based greases

 

3

Crude oil including crude oil condensates

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

ASTM D 4177 – 95 (2005)

4

Other natural gas liquids

ASTM D1265 – 05

5

Gasoline (other than for use as fuel in an aircraft)

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

ASTM D 4177 – 95 (2005)

6

Gasoline for use as fuel in an aircraft

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

ASTM D 4177 – 95 (2005)

7

Kerosene (other than for use as fuel in an aircraft)

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

ASTM D 4177 – 95 (2005)

8

Kerosene for use as fuel in an aircraft

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

ASTM D 4177 – 95 (2005)

9

Heating oil

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

ASTM D 4177 – 95 (2005)

10

Diesel oil

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

ASTM D 4177 – 95 (2005)

11

Fuel oil

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

ASTM D 4177 – 95 (2005)

12

Liquefied aromatic hydrocarbons

ASTM D 4057 – 06

13

Solvents if mineral turpentine or white spirits

ASTM D 4057 – 06

14

Liquefied Petroleum Gas

ASTM D1265 – 05)

ISO 4257:2001

15

Naphtha

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

16

Petroleum coke

ASTM D 4057 – 06

17

Refinery gas and liquids

ASTM D 4057 – 06

18

Refinery coke

ASTM D 4057 – 06

19

Petroleum based products other than:

(a) petroleum based oils and petroleum based greases mentioned in items 1 and 2; and

(b) the petroleum based products mentioned in items 3 to 18

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

20

Biodiesel

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

ASTM D 4177 – 95 (2005)

21

Ethanol for use as a fuel in an internal combustion engine

ASTM D 4057 – 06

22

Biofuels other than those mentioned in items 20 and 21

ISO 3170:2004

ISO 3171:1988

ASTM D 4057 – 06

ASTM D 4177 – 95 (2005)

             (4)  A liquid fuel may also be sampled in accordance with a standard that is equivalent to a standard set out in the table in subsection (3) in relation to that liquid fuel.

Division 2.4.5Method 2—emissions of methane and nitrous oxide from liquid fuels other than petroleum based oils or greases

2.48  Method 2—emissions of methane and nitrous oxide from the combustion of liquid fuels

             (1)  For subparagraph 2.40(1)(b)(ii) and subject to subsection (2), method 2 for estimating emissions of methane and nitrous oxide is the same as method 1 under section 2.41.

             (2)  In applying method 1 in section 2.41, the emission factor EFijoxec is taken to be the emission factor set out in:

                     (a)  for combustion of fuel by vehicles manufactured after 2004—columns 5 and 6 of the table in Division 4.2 of Part 4 of Schedule 1; and

                     (b)  for combustion of fuel by trucks that meet the design standards mentioned in column 3 of the table in Division 4.3 of Part 4 of Schedule 1—columns 6 and 7 of the table in that Division.

Division 2.4.5AMethods for estimating emissions of carbon dioxide from petroleum based oils or greases

2.48A  Method 1—estimating emissions of carbon dioxide using an estimated oxidation factor

             (1)  For paragraph 2.40A(1)(a), method 1 for estimating emissions of carbon dioxide from the consumption of petroleum based oils or petroleum based greases using an estimated oxidation factor is:

                  

where:

Epogco2 is the emissions of carbon dioxide released from the consumption of petroleum based oils or petroleum based greases from the operation of the facility during the year measured in CO2‑e tonnes.

Qpog is the quantity of petroleum based oils or petroleum based greases consumed from the operation of the facility, estimated in accordance with Division 2.4.6.

ECpogco2 is the energy content factor of petroleum based oils or petroleum based greases measured in gigajoules per kilolitre as mentioned in Part 3 of Schedule 1.

EFpogco2oxec has the meaning given in subsection (2).

             (2)  EFpogco2oxec is:

                     (a)  the emission factor for carbon dioxide released from the operation of the facility during the year (which includes the effect of an oxidation factor) measured in kilograms CO2‑e per gigajoule of the petroleum based oils or petroleum based greases as mentioned in Part 3 of Schedule 1; or

                     (b)  to be estimated as follows:

                           

where:

OFpog is the estimated oxidation factor for petroleum based oils or petroleum based greases.

EFpogco2ec is 69.9.

             (3)  For OFpog in paragraph (2)(b), estimate as follows:

                  

where:

Qpog is the quantity of petroleum based oils or petroleum based greases consumed from the operation of the facility, estimated in accordance with Division 2.4.6.

Oil Transferred Offsitepog is the quantity of oils, derived from petroleum based oils or petroleum based greases, transferred outside the facility, and estimated in accordance with Division 2.4.6.

2.48B  Method 2—estimating emissions of carbon dioxide using an estimated oxidation factor

                   For paragraph 2.40A(1)(b), method 2 is the same as method 1 but the emission factor EFpogco2ec must be determined in accordance with Division 2.4.3.

2.48C  Method 3—estimating emissions of carbon dioxide using an estimated oxidation factor

                   For paragraph 2.40A(1)(c), method 3 is the same as method 1 but the emission factor EFpogco2ec must be determined in accordance with Division 2.4.4.

Division 2.4.6Measurement of quantity of liquid fuels

2.49  Purpose of Division

                   This Division sets out how quantities of liquid fuels combusted from the operation of a facility are to be estimated for the purpose of working out the emissions released from the combustion of that fuel.

2.50  Criteria for measurement

             (1)  For the purpose of calculating the combustion of a liquid fuel from the operation of a facility for a year and, in particular, for Qi in sections 2.41 and 2.42 the combustion must be estimated in accordance with this section.

Acquisition involves commercial transaction

             (2)  If the acquisition of the liquid fuel involves a commercial transaction, the quantity of fuel combusted must be estimated using one of the following criteria:

                     (a)  the amount of the liquid fuel delivered for the facility during the year as evidenced by invoices issued by the vendor of the fuel (criterion A);

                     (b)  as provided in section 2.51 (criterion AA);

                     (c)  as provided in section 2.52 (criterion AAA).

             (3)  If, during a year, criterion AA, or criterion AAA using paragraph 2.52(2)(a), is used to estimate the quantity of fuel combusted then, in each year following that year, only criterion AA, or criterion AAA using paragraph 2.52(2)(a), (respectively) may be used.

Acquisition does not involve commercial transaction

             (4)  If the acquisition of the liquid fuel does not involve a commercial transaction, the quantity of fuel combusted must be estimated using one of the following criteria:

                     (a)  as provided in paragraph 2.52(2)(a) (criterion AAA);

                     (b)  as provided in section 2.53 (criterion BBB).

2.51  Indirect measurement—criterion AA

                   For paragraph 2.50(2)(b), criterion AA is the amount of the liquid fuel combusted from the operation of the facility during the year based on amounts delivered during the year (evidenced by invoices) as adjusted for the estimated change in the quantity of the stockpile of the fuel for the facility during the year.

2.52  Direct measurement—criterion AAA

             (1)  For paragraph  2.50(2)(c), criterion AAA is the measurement during the year of the liquid fuel combusted from the operation of the facility.

             (2)  The measurement must be carried out:

                     (a)  at the point of combustion at ambient temperatures and converted to standard temperatures, using measuring equipment calibrated to a measurement requirement; or

                     (b)  at ambient temperatures and converted to standard temperatures, at the point of sale of the liquid fuel, using measuring equipment calibrated to a measurement requirement.

             (3)  Paragraph (2)(b) only applies if:

                     (a)  the change in the stockpile of fuel for the facility for the year is less than 1% of total combustion on average for the facility during the year; and

                     (b)  the stockpile of the fuel for the facility at the beginning of the year is less than 5% of total combustion from the operation of the facility for the year.

2.53  Simplified consumption measurements—criterion BBB

                   For paragraph 2.50(4)(b), criterion BBB is the estimation of the combustion of a liquid fuel for the year using accepted industry measuring devices or, in the absence of such measuring devices, in accordance with industry practice if the equipment used to measure consumption of the fuel is not calibrated to a measurement requirement.

Part 2.5Emissions released from fuel use by certain industries

2.54  Application

                   This Part applies to emissions from petroleum refining, solid fuel transformation (coke ovens) and petrochemical production.

Division 2.5.1Energy—petroleum refining

2.55  Application

                   This Division applies to petroleum refining.

2.56  Methods

             (1)  If:

                     (a)  the operation of a facility is constituted by petroleum refining; and

                     (b)  the refinery combusts fuels for energy;

then the methods for estimating emissions during a year from that combustion are as provided in Parts 2.2, 2.3 and 2.4.

             (2)  The method for estimating emissions from the production of hydrogen by the petroleum refinery must be in accordance with the method set out in section 5 of the API Compendium.

             (3)  Fugitive emissions released from the petroleum refinery must be estimated using methods provided for in Chapter 3.

Division 2.5.2Energy—manufacture of solid fuels

2.57  Application

                   This Division applies to solid fuel transformation through the pyrolysis of coal or the coal briquette process.

2.58  Methods

             (1)  One or more of the following methods must be used for estimating emissions during the year from combustion of fuels for energy in the manufacture of solid fuels:

                     (a)  if a facility is constituted by the manufacture of solid fuel using coke ovens as part of an integrated metalworks—the methods provided in Part 4.4 must be used; and

                     (b)  in any other case—one of the following methods must be used:

                              (i)  method 1 under subsection (3);

                             (ii)  method 2 under subsections (4) to (7);

                            (iii)  method 3 under subsections (8) to (10);

                            (iv)  method 4 under Part 1.3.

             (2)  These emissions are taken to be emissions from fuel combustion.

Method 1

             (3)  Method 1, based on a carbon mass balance approach, is:

Step 1

Work out the carbon content in fuel types (i) or carbonaceous input material delivered for the activity during the year, measured in tonnes of carbon, as follows:

where:

Si means the sum of the carbon content values obtained for all fuel types (i) or carbonaceous input material.

CCFi is the carbon content factor mentioned in Schedule 3, measured in tonnes of carbon, for each appropriate unit of fuel type (i) or carbonaceous input material consumed during the year from the operation of the activity.

Qi is the quantity of fuel type (i) or carbonaceous input material delivered for the activity during the year, measured in an appropriate unit and estimated in accordance with criterion A in Divisions 2.2.5, 2.3.6 and 2.4.6.

Step 2

Work out the carbon content in products (p) leaving the activity during the year, measured in tonnes of carbon, as follows:

where:

Sp means the sum of the carbon content values obtained for all product types (p).

CCFp is the carbon content factor, measured in tonnes of carbon, for each tonne of product type (p) produced during the year.

Ap is the quantity of product types (p) produced leaving the activity during the year, measured in tonnes.

Step 3

Work out the carbon content in waste by‑product types (r) leaving the activity, other than as an emission of greenhouse gas, during the year, measured in tonnes of carbon, as follows:

where:

Sr means the sum of the carbon content values obtained for all waste by‑product types (r).

CCFr is the carbon content factor, measured in tonnes of carbon, for each tonne of waste by‑product types (r).

Yr is the quantity of waste by‑product types (r) leaving the activity during the year, measured in tonnes.

Step 4

Work out the carbon content in the amount of the change in stocks of inputs, products and waste by‑products held within the boundary of the activity during the year, measured in tonnes of carbon, as follows:

where:

Si has the same meaning as in step 1.

CCFi has the same meaning as in step 1.

ΔSqi is the change in stocks of fuel type (i) for the activity and held within the boundary of the activity during the year, measured in tonnes.

Sp has the same meaning as in step 2.

CCFp has the same meaning as in step 2.

ΔSap is the change in stocks of product types (p) produced by the activity and held within the boundary of the activity during the year, measured in tonnes.

 

Sr has the same meaning as in step 3.

CCFr has the same meaning as in step 3.

ΔSyr is the change in stocks of waste by‑product types (r) produced from the operation of the activity and held within the boundary of the activity during the year, measured in tonnes.

Step 5

Work out the emissions of carbon dioxide released from the operation of the activity during the year, measured in CO2‑e tonnes, as follows:

   (a)  add the amounts worked out under steps 2, 3 and 4 to work out a new amount (amount A);

  (b)  subtract amount A from the amount worked out under step 1 to work out a new amount (amount B);

   (c)  multiply amount B by 3.664 to work out the amount of emissions released from the operation of the activity during the year.

Method 2

             (4)  Subject to subsections (5) to (7), method 2 is the same as method 1 under subsection (3).

             (5)  In applying method 1 as method 2, step 4 in subsection (3) is to be omitted and the following step 4 substituted.

Step 4

Work out the carbon content in the amount of the change in stocks of inputs, products and waste by‑products held within the boundary of the activity during the year, measured in tonnes of carbon, as follows:

where:

Si has the same meaning as in step 1.

CCFi has the same meaning as in step 1.

ΔSqi is the change in stocks of fuel type (i) for the activity and held within the boundary of the activity during the year, measured in tonnes.

Sp has the same meaning as in step 2.

CCFp has the same meaning as in step 2.

ΔSap is the change in stocks of product types (p) produced by the activity and held within the boundary of the activity during the year, measured in tonnes.

Sr has the same meaning as in step 3.

 

CCFr has the same meaning as in step 3.

 

ΔSyr is the change in stocks of waste by‑product types (r) produced from the operation of the activity and held within the boundary of the activity during the year, measured in tonnes.

 

α is the factor  for converting the mass of carbon dioxide to a mass of carbon.

 

γ is the factor 1.861 × 10‑3 for converting a quantity of carbon dioxide from cubic metres at standard conditions of pressure and temperature to CO2‑e tonnes.

RCCSCO2 is carbon dioxide captured for permanent storage, measured in cubic metres in accordance with Division 1.2.3.

             (6)  If a fuel type (i) or carbonaceous input material delivered for the activity during the year accounts for more than 5% of total carbon input for the activity, based on a calculation using the factors specified in Schedule 3, sampling and analysis of fuel type (i) or carbonaceous input material must be carried out to determine its carbon content.

             (7)  The sampling and analysis is to be carried out using the sampling and analysis provided for in Divisions 2.2.3, 2.3.3 and 2.4.3 that apply to the combustion of solid, gaseous and liquid fuels.

Method 3

             (8)  Subject to subsections (9) and (10), method 3 is the same as method 2 under subsections (4) to (7).

             (9)  If a fuel type (i) or carbonaceous input material delivered for the activity during the year accounts for more than 5% of total carbon input for the activity, based on a calculation using the factors specified in Schedule 3, sampling and analysis of fuel type (i) or carbonaceous input material must be carried out to determine its carbon content.

           (10)  The sampling and analysis is to be carried out using the methods set out in Divisions 2.2.4, 2.3.4 and 2.4.4 that apply to the combustion of solid, gaseous and liquid fuels.

Division 2.5.3Energy—petrochemical production

2.59  Application

                   This Division applies to petrochemical production (where fuel is consumed as a feedstock).

2.60  Available methods

             (1)  Subject to section 1.18 one of the following methods must be used for estimating emissions released during a year from the operation of a facility that is constituted by an activity that is petrochemical production:

                     (a)  method 1 under section 2.61;

                     (b)  method 2 under section 2.62;

                     (c)  method 3 under section 2.63;

                     (d)  method 4 under Part 1.3.

             (2)  However, for incidental emissions another method may be used that is consistent with the principles in section 1.13.

2.61  Method 1—petrochemical production

                   Method 1, based on a carbon mass balance approach, is:

 

Step 1

Calculate the carbon content in all fuel types (i) delivered for the activity during the year as follows:

 

where:

Si means sum the carbon content values obtained for all fuel types (i).

CCFi is the carbon content factor measured in tonnes of carbon for each tonne of fuel type (i) as mentioned in Schedule 3 consumed in the operation of the activity.

Qi is the quantity of fuel type (i) delivered for the activity during the year measured in tonnes and estimated in accordance with criterion A in Divisions 2.2.5, 2.3.6 and 2.4.6.

Step 2

Calculate the carbon content in products (p) leaving the activity during the year as follows:

 

where:

Sp means sum the carbon content values obtained for all product types (p).

 

CCFp is the carbon content factor measured in tonnes of carbon for each tonne of product (p).

 

Ap is the quantity of products produced (p) leaving the activity during the year measured in tonnes.

Step3

Calculate the carbon content in waste by‑products (r) leaving the activity, other than as an emission of greenhouse gas, during the year as follows:

 

where:

Sr means sum the carbon content values obtained for all waste by‑product types (r).

CCFr is the carbon content factor measured in tonnes of carbon for each tonne of waste by‑product (r).

Yr is the quantity of waste by‑product (r) leaving the activity during the year measured in tonnes.

Step 4

Calculate the carbon content in the amount of the increase in stocks of inputs, products and waste by‑products held within the boundary of the activity during the year as follows:

 

where:

Si has the same meaning as in step 1.

CCFi has the same meaning as in step 1.

ΔSqi is the increase in stocks of fuel type (i) for the activity and held within the boundary of the activity during the year measured in tonnes.

Sp has the same meaning as in step 2.

CCFp has the same meaning as in step 2.

ΔSap is the increase in stocks of products produced (p) by the activity and held within the boundary of the activity during the year measured in tonnes.

 

Sr has the same meaning as in step 3.

CCFr has the same meaning as in step 3.

ΔSyr is the increase in stocks of waste by‑products (r) produced by the activity and held within the boundary of the activity during the year measured in tonnes.

Step 5

Calculate the emissions of carbon dioxide released from the activity during the year measured in CO2‑e tonnes as follows:

   (a)  add the amounts worked out under steps 2, 3 and 4 to work out a new amount (amount A)

  (b)  subtract amount A from the amount worked out under step 1 to work out a new amount (amount B);

   (c)  multiply amount B by 3.664 to work out the amount of emissions released from the activity during a year.

2.62  Method 2—petrochemical production

             (1)  Subject to subsections (2) and (3), method 2 is the same as method 1 under section 2.61 but sampling and analysis of fuel types (i) is used to determine carbon content of the fuel.

             (2)  The sampling and analysis is to be carried out using the methods set out in Divisions 2.2.3, 2.3.3 and 2.4.3 that apply to the combustion of solid, liquid or gaseous fuels.

             (3)  In applying method 1 as method 2, step 4 in section 2.61 is to be omitted and the following step 4 substituted:

Step 4

Calculate the carbon content in the amount of the increase in stocks of inputs, products and waste by‑products held within the boundary of the activity during the year as follows:

 

where:

Si has the same meaning as in step 1.

CCFi has the same meaning as in step 1.

 

ΔSqi is the increase in stocks of fuel type (i) for the activity and held within the boundary of the activity during the year measured in tonnes.

 

Sp has the same meaning as in step 2.

 

CCFp has the same meaning as in step 2.

 

ΔSap is the increase in stocks of products produced (p) by the activity and held within the boundary of the activity during the year measured in tonnes.

 

Sr has the same meaning as in step 3.

CCFr has the same meaning as in step 3.ΔSyr is the increase in stocks of waste byproducts (r) produced by the activity and held within the boundary of the activity during the year measured in tonnes.

 

α is the factor  for converting the mass of carbon dioxide to a mass of carbon.

 

γ is the factor 1.861 x 10‑3 for converting a quantity of carbon dioxide from cubic metres at standard conditions of pressure and temperature to CO2‑e tonnes.

RCCSCO2 is carbon dioxide captured for permanent storage measured in cubic metres in accordance with Division 1.2.3.

2.63  Method 3—petrochemical production

             (1)  Subject to subsections (2) and (3), method 3 is the same as method 1 in section 2.61 but the sampling and analysis of fuel types (i) is used to determine carbon content of the fuel.

             (2)  The sampling and analysis is to be carried out using the methods set out in Divisions 2.2.4, 2.3.4 and 2.4.4 that apply to the combustion of solid, liquid or gaseous fuels.

             (3)  In applying method 1 as method 3, step 4 in section 2.61 is to be omitted and the following step 4 substituted.

Step 4

Calculate the carbon content in the amount of the increase in stocks of inputs, products and waste by‑products held within the boundary of the activity during the year as follows:

 

where:

Si has the same meaning as in step 1.

CCFi has the same meaning as in step 1.

ΔSqi is the increase in stocks of fuel type (i) for the activity and held within the boundary of the activity during the year measured in tonnes.

Sp has the same meaning as in step 2.

CCFp has the same meaning as in step 2.

ΔSap is the increase in stocks of products produced (p) by the activity and held within the boundary of the activity during the year measured in tonnes.

 

Sr has the same meaning as in step 3.

CCFr has the same meaning as in step 3.

ΔSyr is the increase in stocks of waste byproducts (r) produced by the activity and held within the boundary of the activity during the year measured in tonnes.

 

α is the factor  for converting the mass of carbon dioxide to a mass of carbon.

 

γ is the factor 1.861 x 10‑3 for converting a quantity of carbon dioxide from cubic metres at standard conditions of pressure and temperature to CO2‑e tonnes.

RCCSCO2 is carbon dioxide captured for permanent storage measured in cubic metres in accordance with Division 1.2.3.

 

Part 2.6Blended fuels

  

2.64  Purpose

                   This Part sets out how to determine the amounts of each kind of fuel that is in a blended fuel.

2.65  Application

                   This Part sets out how to determine the amount of each fuel type (i) that is in a blended fuel if that blended fuel is a solid fuel or a liquid fuel.

2.66  Blended solid fuels

             (1)  In determining the amounts of each kind of fuel that is in a blended solid fuel, a person may adopt the outcome of the sampling and analysis done by the manufacturer of the fuel if:

                     (a)  the sampling has been done in accordance with subsections 2.12(3) and (4); and

                     (b)  the analysis has been done in accordance with one of the following standards or a standard that is equivalent to one of those standards:

                              (i)  CEN/TS15440:2006;

                             (ii)  ASTM D6866—10.

             (2)  The person may use his or her own sampling and analysis of the fuel if the sampling and analysis complies with the requirements of paragraphs (1)(a) and (b).

2.67  Blended liquid fuels

                   The person may adopt the manufacturer’s determination of each kind of fuel that is in a blended liquid fuel or adopt the analysis arrived at after doing both of the following:

                     (a)  sampling the fuel in accordance with a standard mentioned in subsections 2.47(3) and (4);

                     (b)  analysing the fuel in accordance with ASTM: D6866—10 or a standard that is equivalent to that standard.

Part 2.7Estimation of energy for certain purposes

  

2.68  Amount of energy consumed without combustion

                   For paragraph 4.22(1)(b) of the Regulations:

                     (a)  the energy is to be measured:

                              (i)  for solid fuel—in tonnes estimated under Division 2.2.5; or

                             (ii)  for gaseous fuel—in cubic metres estimated under Division 2.3.6; or

                            (iii)  for liquid fuel—in kilolitres estimated under Division 2.4.6; and

                            (iv)  for electricity—in kilowatt hours:

                                        (A)  worked out using the evidence mentioned in paragraph 6.5(2)(a); or

                                        (B)  if the evidence mentioned in paragraph 6.5(2)(a) is unavailable—estimated in accordance with paragraph 6.5(2)(b).

                     (b)  the reporting threshold is:

                              (i)  for solid fuel—20 tonnes; or

                             (ii)  for gaseous fuel—13 000 cubic metres; or

                            (iii)  for liquid fuel—15 kilolitres; or

                            (iv)  for electricity consumed from a generating unit with a maximum capacity to produce less than 0.5 megawatts of electricity—100 000 kilowatt hours; or

                             (v)  for all other electricity consumption—20 000 kilowatt hours.

Example:    A fuel is consumed without combustion when it is used as a solvent or a flocculent, or as an ingredient in the manufacture of products such as paints, solvents or explosives.

2.69  Apportionment of fuel consumed as carbon reductant or feedstock and energy

             (1)  This section applies, other than for Division 2.5.3, if:

                     (a)  a fuel type as provided for in a method is consumed from the operation of a facility as either a reductant or a feedstock; and

                     (b)  the fuel is combusted for energy; and

                     (c)  the equipment used to measure the amount of the fuel for the relevant purpose was not calibrated to a measurement requirement.

Note:          Division 2.5.3 deals with petrochemicals. For petrochemicals, all fuels, whether used as a feedstock, a reductant or combusted as energy are reported as energy.

             (2)  The amount of the fuel type consumed as a reductant or a feedstock may be estimated:

                     (a)  in accordance with industry measuring devices or industry practice; or

                     (b)  if it is not practicable to estimate as provided for in paragraph (a)—to be the whole of the amount of the consumption of that fuel type from the operation of the facility.

             (3)  The amount of the fuel type combusted for energy may be estimated as the difference between the total amount of the fuel type consumed from the operation of the facility and the estimated amount worked out under subsection (2).

2.70  Amount of energy consumed in a cogeneration process

             (1)  For subregulation 4.23(3) of the Regulations and subject to subsection (3), the method is the efficiency method.

             (2)  The efficiency method is as described in the publication entitled Allocation of Emissions from a Combined Heat and Power (CHP) Plant Guide to calculation worksheets (September 2006) v1.0 issued by the World Resource Institute and World Business Council for Sustainable Development.

             (3)  Where heat is to be used mainly for producing mechanical work, the work potential method may be used.

             (4)  The work potential method is as described in the publication entitled Allocation of Emissions from a Combined Heat and Power (CHP) Plant Guide to calculation worksheets (September 2006) v1.0 issued by the World Resource Institute and World Business Council for Sustainable Development.

2.71  Apportionment of energy consumed for electricity, transport and for stationary energy

                   Subject to section 2.70, the amount of fuel type (i) consumed by a reporting corporation or liable entity that is apportioned between electricity generation, transport (excluding international bunker fuels) and other stationary energy purposes may be determined using the records of the corporation or liable entity if the records are based on the measurement equipment used by the corporation or the liable entity to measure consumption of the fuel types.

Chapter 3Fugitive emissions

Part 3.1Preliminary

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