National Greenhouse and Energy Reporting (Measurement) Determination 2008 (Cth)
National Greenhouse and Energy Reporting (Measurement) Determination 2008
made under subsection 10(3) of the
National Greenhouse and Energy Reporting Act 2007
Compilation No. 14
Compilation date: 1 July 2022
Includes amendments up to: F2022L00815
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 2022 (the compilation date).
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 the Legislation Register ( 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 the Legislation Register 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 the Legislation Register 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If a provision of the compiled law has been repealed in accordance with a provision of the law, details are included in the endnotes.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
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.. .................................................................................................................... 18
1.9A Meaning of separate instance of a source........................................................................ 18
1.9B Meaning of separate occurrence of a source................................................................... 18
1.10 Meaning of source............................................................................................................ 19
Part 1.2—General 22
1.11 Purpose of Part.................................................................................................................. 22
Division 1.2.1—Measurement and standards 22
1.12 Measurement of emissions and energy.............................................................................. 22
1.13 General principles for measuring emissions and energy.................................................... 22
1.14 Assessment of uncertainty................................................................................................. 22
1.15 Units of measurement........................................................................................................ 23
1.16 Rounding of amounts........................................................................................................ 23
1.17 Status of standards............................................................................................................ 23
Division 1.2.2—Methods 24
1.18 Method to be used for a separate occurrence of a source................................................... 24
1.18A Conditions—persons preparing report must use same method....................................... 25
1.19 Temporary unavailability of method.................................................................................. 26
Division 1.2.3—Requirements in relation to carbon capture and storage 27
1.19A Meaning of captured for permanent storage................................................................. 27
1.19B Deducting greenhouse gas that is captured for permanent storage.................................. 27
1.19C Capture from facility with multiple sources jointly generated......................................... 28
1.19D Capture from a source where multiple fuels consumed.................................................. 28
1.19E Measure of quantity of captured greenhouse gas............................................................ 28
1.19F Volume of greenhouse gas stream—criterion A............................................................. 29
1.19G Volume of greenhouse gas stream—criterion AAA....................................................... 29
1.19GA Volume of greenhouse gas stream—criterion BBB..................................................... 30
1.19H Volumetric measurement—compressed greenhouse gas stream..................................... 30
1.19I Volumetric measurement—super‑compressed greenhouse gas stream............................ 31
1.19J Gas measuring equipment—requirements....................................................................... 32
1.19K Flow devices—requirements.......................................................................................... 32
1.19L Flow computers—requirements...................................................................................... 33
1.19M Gas chromatographs...................................................................................................... 33
Part 1.3—Method 4—Direct measurement of emissions 34
Division 1.3.1—Preliminary 34
1.20 Overview...... .................................................................................................................... 34
Division 1.3.2—Operation of method 4 (CEM) 35
Subdivision 1.3.2.1—Method 4 (CEM) 35
1.21 Method 4 (CEM)—estimation of emissions...................................................................... 35
1.21A Emissions from a source where multiple fuels consumed.............................................. 36
Subdivision 1.3.2.2—Method 4 (CEM)—use of equipment 36
1.22 Overview...... .................................................................................................................... 36
1.23 Selection of sampling positions for CEM equipment........................................................ 36
1.24 Measurement of flow rates by CEM................................................................................. 36
1.25 Measurement of gas concentrations by CEM.................................................................... 37
1.26 Frequency of measurement by CEM................................................................................. 37
Division 1.3.3—Operation of method 4 (PEM) 38
Subdivision 1.3.3.1—Method 4 (PEM) 38
1.27 Method 4 (PEM)—estimation of emissions...................................................................... 38
1.27A Emissions from a source where multiple fuels consumed.............................................. 38
1.28 Calculation of emission factors.......................................................................................... 38
Subdivision 1.3.3.2—Method 4 (PEM)—use of equipment 39
1.29 Overview...... .................................................................................................................... 39
1.30 Selection of sampling positions for PEM equipment......................................................... 39
1.31 Measurement of flow rates by PEM equipment................................................................ 39
1.32 Measurement of gas concentrations by PEM.................................................................... 40
1.33 Representative data for PEM............................................................................................. 40
Division 1.3.4—Performance characteristics of equipment 41
1.34 Performance characteristics of CEM or PEM equipment.................................................. 41
Chapter 2—Fuel combustion 42
Part 2.1—Preliminary 42
2.1 Outline of Chapter............................................................................................................... 42
Part 2.2—Emissions released from the combustion of solid fuels 43
Division 2.2.1—Preliminary 43
2.2 Application..... .................................................................................................................... 43
2.3 Available methods for estimating emissions of carbon dioxide, methane and nitrous oxide 43
Division 2.2.2—Method 1—emissions of carbon dioxide, methane and nitrous oxide from solid fuels 44
2.4 Method 1—solid fuels......................................................................................................... 44
Division 2.2.3—Method 2—emissions from solid fuels 45
Subdivision 2.2.3.1—Method 2—estimating carbon dioxide using default oxidation factor 45
2.5 Method 2—estimating carbon dioxide using oxidation factor............................................. 45
Subdivision 2.2.3.2—Method 2—estimating carbon dioxide using an estimated oxidation factor 46
2.6 Method 2—estimating carbon dioxide using an estimated oxidation factor......................... 46
Subdivision 2.2.3.3—Sampling and analysis for method 2 under sections 2.5 and 2.6 48
2.7 General requirements for sampling solid fuels.................................................................... 48
2.8 General requirements for analysis of solid fuels.................................................................. 48
2.9 Requirements for analysis of furnace ash and fly ash.......................................................... 49
2.10 Requirements for sampling for carbon in furnace ash....................................................... 49
2.11 Sampling for carbon in fly ash.......................................................................................... 49
Division 2.2.4—Method 3—Solid fuels 51
2.12 Method 3—solid fuels using oxidation factor or an estimated oxidation factor................. 51
Division 2.2.5—Measurement of consumption of solid fuels 53
2.13 Purpose of Division.......................................................................................................... 53
2.14 Criteria for measurement................................................................................................... 53
2.15 Indirect measurement at point of consumption—criterion AA.......................................... 53
2.16 Direct measurement at point of consumption—criterion AAA.......................................... 56
2.17 Simplified consumption measurements—criterion BBB................................................... 56
Part 2.3—Emissions released from the combustion of gaseous fuels 57
Division 2.3.1—Preliminary 57
2.18 Application... 57
2.19 Available methods............................................................................................................. 57
Division 2.3.2—Method 1—emissions of carbon dioxide, methane and nitrous oxide 58
2.20 Method 1—emissions of carbon dioxide, methane and nitrous oxide............................... 58
Division 2.3.3—Method 2—emissions of carbon dioxide from the combustion of gaseous fuels 59
Subdivision 2.3.3.1—Method 2—emissions of carbon dioxide from the combustion of gaseous fuels 59
2.21 Method 2—emissions of carbon dioxide from the combustion of gaseous fuels.............. 59
2.22 Calculation of emission factors from combustion of gaseous fuel..................................... 59
Subdivision 2.3.3.2—Sampling and analysis 61
2.23 General requirements for sampling under method 2.......................................................... 61
2.24 Standards for analysing samples of gaseous fuels............................................................. 62
2.25 Frequency of analysis........................................................................................................ 65
Division 2.3.4—Method 3—emissions of carbon dioxide released from the combustion of gaseous fuels 67
2.26 Method 3—emissions of carbon dioxide from the combustion of gaseous fuels.............. 67
Division 2.3.5—Method 2—emissions of methane from the combustion of gaseous fuels 69
2.27 Method 2—emissions of methane from the combustion of gaseous fuels......................... 69
Division 2.3.6—Measurement of quantity of gaseous fuels 70
2.28 Purpose of Division.......................................................................................................... 70
2.29 Criteria for measurement................................................................................................... 70
2.30 Indirect measurement—criterion AA................................................................................. 70
2.31 Direct measurement—criterion AAA................................................................................ 70
2.32 Volumetric measurement—all natural gases...................................................................... 72
2.33 Volumetric measurement—super‑compressed gases......................................................... 73
2.34 Gas measuring equipment—requirements......................................................................... 73
2.35 Flow devices—requirements............................................................................................. 73
2.36 Flow computers—requirements........................................................................................ 74
2.37 Gas chromatographs—requirements................................................................................. 75
2.38 Simplified consumption measurements—criterion BBB................................................... 75
Part 2.4—Emissions released from the combustion of liquid fuels 76
Division 2.4.1—Preliminary 76
2.39 Application... .................................................................................................................... 76
2.39A Definition of petroleum based oils for Part 2.4.............................................................. 76
Subdivision 2.4.1.1—Liquid fuels—other than petroleum based oils and greases 76
2.40 Available methods............................................................................................................. 76
Subdivision 2.4.1.2—Liquid fuels—petroleum based oils and greases 77
2.40A Available methods.......................................................................................................... 77
Division 2.4.2—Method 1—emissions of carbon dioxide, methane and nitrous oxide from liquid fuels other than petroleum based oils or greases 78
2.41 Method 1—emissions of carbon dioxide, methane and nitrous oxide............................... 78
Division 2.4.3—Method 2—emissions of carbon dioxide from liquid fuels other than petroleum based oils or greases 79
Subdivision 2.4.3.1—Method 2—emissions of carbon dioxide from liquid fuels other than petroleum based oils or greases 79
2.42 Method 2—emissions of carbon dioxide from the combustion of liquid fuels.................. 79
2.43 Calculation of emission factors from combustion of liquid fuel........................................ 79
Subdivision 2.4.3.2—Sampling and analysis 80
2.44 General requirements for sampling under method 2.......................................................... 80
2.45 Standards for analysing samples of liquid fuels................................................................ 80
2.46 Frequency of analysis........................................................................................................ 82
Division 2.4.4—Method 3—emissions of carbon dioxide from liquid fuels other than petroleum based oils or greases 84
2.47 Method 3—emissions of carbon dioxide from the combustion of liquid fuels.................. 84
Division 2.4.5—Method 2—emissions of methane and nitrous oxide from liquid fuels other than petroleum based oils or greases 87
2.48 Method 2—emissions of methane and nitrous oxide from the combustion of liquid fuels 87
Division 2.4.5A—Methods for estimating emissions of carbon dioxide from petroleum based oils or greases 88
2.48A Method 1—estimating emissions of carbon dioxide using an estimated oxidation factor 88
2.48B Method 2—estimating emissions of carbon dioxide using an estimated oxidation factor 89
2.48C Method 3—estimating emissions of carbon dioxide using an estimated oxidation factor 89
Division 2.4.6—Measurement of quantity of liquid fuels 90
2.49 Purpose of Division.......................................................................................................... 90
2.50 Criteria for measurement................................................................................................... 90
2.51 Indirect measurement—criterion AA................................................................................. 90
2.52 Direct measurement—criterion AAA................................................................................ 90
2.53 Simplified consumption measurements—criterion BBB................................................... 91
Part 2.5—Emissions released from fuel use by certain industries 92
2.54 Application... .................................................................................................................... 92
Division 2.5.1—Energy—petroleum refining 93
2.55 Application... .................................................................................................................... 93
2.56 Methods....... .................................................................................................................... 93
Division 2.5.2—Energy—manufacture of solid fuels 94
2.57 Application... .................................................................................................................... 94
2.58 Methods....... .................................................................................................................... 94
Division 2.5.3—Energy—petrochemical production 98
2.59 Application... .................................................................................................................... 98
2.60 Available methods............................................................................................................. 98
2.61 Method 1—petrochemical production............................................................................... 98
2.62 Method 2—petrochemical production............................................................................. 100
2.63 Method 3—petrochemical production............................................................................. 100
Part 2.6—Blended fuels 102
2.64 Purpose........ .................................................................................................................. 102
2.65 Application... .................................................................................................................. 102
2.66 Blended solid fuels.......................................................................................................... 102
2.67 Blended liquid fuels......................................................................................................... 102
2.67A Blended gaseous fuels.................................................................................................. 102
Part 2.7—Estimation of energy for certain purposes 104
2.68 Amount of energy consumed without combustion.......................................................... 104
2.69 Apportionment of fuel consumed as carbon reductant or feedstock and energy.............. 104
2.70 Amount of energy consumed in a cogeneration process.................................................. 105
2.71 Apportionment of energy consumed for electricity, transport and for stationary energy. 105
Chapter 3—Fugitive emissions 106
Part 3.1—Preliminary 106
3.1 Outline of Chapter............................................................................................................. 106
Part 3.2—Coal mining—fugitive emissions 107
Division 3.2.1—Preliminary 107
3.2 Outline of Part .................................................................................................................. 107
Division 3.2.2—Underground mines 108
Subdivision 3.2.2.1—Preliminary 108
3.3 Application..... .................................................................................................................. 108
3.4 Available methods............................................................................................................. 108
Subdivision 3.2.2.2—Fugitive emissions from extraction of coal 109
3.5 Method 1—extraction of coal............................................................................................ 109
3.6 Method 4—extraction of coal............................................................................................ 109
3.7 Estimation of emissions..................................................................................................... 110
3.8 Overview—use of equipment............................................................................................ 111
3.9 Selection of sampling positions for PEM.......................................................................... 111
3.10 Measurement of volumetric flow rates by PEM.............................................................. 111
3.11 Measurement of concentrations by PEM......................................................................... 111
3.12 Representative data for PEM........................................................................................... 112
3.13 Performance characteristics of equipment........................................................................ 112
Subdivision 3.2.2.3—Emissions released from coal mine waste gas flared 112
3.14 Method 1—coal mine waste gas flared............................................................................ 112
3.15 Method 2—emissions of carbon dioxide from coal mine waste gas flared...................... 112
3.15A Method 2—emissions of methane and nitrous oxide from coal mine waste gas flared. 113
3.16 Method 3—coal mine waste gas flared............................................................................ 113
Subdivision 3.2.2.4—Fugitive emissions from post‑mining activities 114
3.17 Method 1—post‑mining activities related to gassy mines................................................ 114
Division 3.2.3—Open cut mines 115
Subdivision 3.2.3.1—Preliminary 115
3.18 Application... 115
3.19 Available methods........................................................................................................... 115
Subdivision 3.2.3.2—Fugitive emissions from extraction of coal 116
3.20 Method 1—extraction of coal.......................................................................................... 116
3.21 Method 2—extraction of coal.......................................................................................... 116
3.22 Total gas contained by gas bearing strata......................................................................... 117
3.23 Estimate of proportion of gas content released below pit floor........................................ 118
3.24 General requirements for sampling.................................................................................. 119
3.25 General requirements for analysis of gas and gas bearing strata...................................... 119
3.25A Method of working out base of the low gas zone......................................................... 119
3.25B Further requirements for estimator................................................................................ 120
3.25C Default gas content for gas bearing strata in low gas zone............................................ 121
3.25D Requirements for estimating total gas contained in gas bearing strata........................... 121
3.26 Method 3—extraction of coal.......................................................................................... 121
Subdivision 3.2.3.3—Emissions released from coal mine waste gas flared 122
3.27 Method 1—coal mine waste gas flared............................................................................ 122
3.28 Method 2—coal mine waste gas flared............................................................................ 122
3.29 Method 3—coal mine waste gas flared............................................................................ 122
Division 3.2.4—Decommissioned underground mines 123
Subdivision 3.2.4.1—Preliminary 123
3.30 Application... .................................................................................................................. 123
3.31 Available methods........................................................................................................... 123
Subdivision 3.2.4.2—Fugitive emissions from decommissioned underground mines 124
3.32 Method 1—decommissioned underground mines........................................................... 124
3.33 Emission factor for decommissioned underground mines............................................... 124
3.34 Measurement of proportion of mine that is flooded......................................................... 125
3.35 Water flow into mine....................................................................................................... 125
3.36 Size of mine void volume................................................................................................ 125
3.37 Method 4—decommissioned underground mines........................................................... 126
Subdivision 3.2.4.3—Fugitive emissions from coal mine waste gas flared 126
3.38 Method 1—coal mine waste gas flared............................................................................ 126
3.39 Method 2—coal mine waste gas flared............................................................................ 126
3.40 Method 3—coal mine waste gas flared............................................................................ 126
Part 3.3—Oil and natural gas—fugitive emissions 127
Division 3.3.1—Preliminary 127
3.41 Outline of Part................................................................................................................. 127
3.41A Interpretation................................................................................................................ 128
Division 3.3.2—Oil or gas exploration and development 129
Subdivision 3.3.2.1—Preliminary 129
3.42 Application... .................................................................................................................. 129
Subdivision 3.3.2.2—Oil or gas exploration and development (emissions that are flared) 129
3.43 Available methods........................................................................................................... 129
3.44 Method 1—oil or gas exploration and development........................................................ 129
3.45 Method 2—oil or gas exploration and development (flared carbon dioxide emissions).. 130
3.45A Method 2A—oil or gas exploration and development (flared methane or nitrous oxide emissions) 131
3.46 Method 3—oil or gas exploration and development........................................................ 131
Subdivision 3.3.2.3—Oil or gas exploration and development—fugitive emissions from system upsets, accidents and deliberate releases 131
3.46A Available methods........................................................................................................ 131
Subdivision 3.3.2.3.1—Fugitive emissions that result from deliberate releases from process vents, system upsets and accidents–well completions 132
3.46AB Method 1—vented emissions from natural gas well completions.............................. 132
3.46B Method 4—vented emissions from natural gas well completions, well workovers, cold process vents and well blowouts.................................................................................................................. 133
Division 3.3.3—Crude oil production 134
Subdivision 3.3.3.1—Preliminary 134
3.47 Application... 134
Subdivision 3.3.3.2—Crude oil production (non‑flared)—fugitive leak emissions of methane 134
3.48 Available methods........................................................................................................... 134
3.49 Method 1—crude oil production (non‑flared) emissions of methane.............................. 135
3.50 Method 2—crude oil production (non‑flared) emissions of methane.............................. 135
Subdivision 3.3.3.3—Crude oil production (flared)—fugitive emissions of carbon dioxide, methane and nitrous oxide 138
3.52 Available methods........................................................................................................... 138
3.53 Method 1—crude oil production (flared) emissions........................................................ 138
3.54 Method 2—crude oil production..................................................................................... 139
3.54A Method 2A—crude oil production (flared methane or nitrous oxide emissions).......... 139
3.55 Method 3—crude oil production..................................................................................... 140
Subdivision 3.3.3.4—Crude oil production (non‑flared)—fugitive vent emissions of methane and carbon dioxide 140
3.56A Available methods........................................................................................................ 140
3.56B Method 1—emissions from system upsets, accidents and deliberate releases from process vents 141
Division 3.3.4—Crude oil transport 142
3.57 Application... .................................................................................................................. 142
3.58 Available methods........................................................................................................... 142
3.59 Method 1—crude oil transport........................................................................................ 142
3.60 Method 2—fugitive emissions from crude oil transport.................................................. 142
Division 3.3.5—Crude oil refining 144
3.62 Application...................................................................................................................... 144
3.63 Available methods........................................................................................................... 144
Subdivision 3.3.5.1—Fugitive emissions from crude oil refining and from storage tanks for crude oil 145
3.64 Method 1—crude oil refining and storage tanks for crude oil......................................... 145
3.65 Method 2—crude oil refining and storage tanks for crude oil......................................... 145
Subdivision 3.3.5.2—Fugitive emissions from deliberate releases from process vents, system upsets and accidents 147
3.67 Method 1—fugitive emissions from deliberate releases from process vents, system upsets and accidents 147
3.68 Method 4—deliberate releases from process vents, system upsets and accidents............ 147
Subdivision 3.3.5.3—Fugitive emissions released from gas flared from the oil refinery 147
3.69 Method 1—gas flared from crude oil refining................................................................. 147
3.70 Method 2—gas flared from crude oil refining................................................................. 148
3.70A Method 2A—crude oil refining (flared methane or nitrous oxide emissions)............... 148
3.71 Method 3—gas flared from crude oil refining................................................................. 149
Division 3.3.6A—Onshore natural gas production (other than emissions that are vented or flared) 150
3.72 Application... .................................................................................................................. 150
Subdivision 3.3.6A.1—Onshore natural gas production, other than emissions that are vented or flared—wellheads 150
3.73 Available methods........................................................................................................... 150
3.73B Method 2—onshore natural gas production, other than emissions that are vented or flared—wellheads 151
Division 3.3.6B—Offshore natural gas production (other than emissions that are vented or flared) 156
3.73D Application .................................................................................................................. 156
Subdivision 3.3.6B.1—Offshore natural gas production, other than emissions that are vented or flared—offshore platforms.................................................................................................................. 156
3.73E Available methods......................................................................................................... 156
3.73F Method 1—offshore natural gas production (other than emissions that are vented or flared) 156
3.73G Method 2—offshore natural gas production (other than venting and flaring)............... 157
Division 3.3.6C—Natural gas gathering and boosting (other than emissions that are vented or flared) 162
3.73I Application..................................................................................................................... 162
3.73J Available methods......................................................................................................... 162
3.73K Method 1—natural gas gathering and boosting (other than venting and flaring).......... 162
3.73L Method 2—natural gas gathering and boosting (other than venting and flaring)........... 165
3.73LA Method 2—natural gas gathering and boosting, other than emissions that are vented or flared—natural gas gathering and boosting stations....................................................................................... 165
Division 3.3.6D—Produced water from oil and gas exploration and development, crude oil production, natural gas production or natural gas gathering and boosting (other than emissions that are vented or flared) 172
3.73N Available methods........................................................................................................ 172
3.73NA Method 1—produced water (other than emissions that are vented or flared)............. 172
3.73NB Method 2—produced water (other than emissions that are vented or flared)............. 173
Division 3.3.6E—Natural gas processing (other than emissions that are vented or flared) 175
3.73O Application .................................................................................................................. 175
3.73P Available methods......................................................................................................... 175
3.73Q Method 1—natural gas processing (other than emissions that are vented or flared)..... 175
3.73R Method 2—natural gas processing (other than venting and flaring)............................. 177
3.73S Method 3—natural gas processing (other than venting and flaring).............................. 178
Division 3.3.7—Natural gas transmission (other than emissions that are flared) 181
3.74 Application... .................................................................................................................. 181
3.75 Available methods........................................................................................................... 181
3.76 Method 1—natural gas transmission (other than flaring)................................................ 181
3.77 Method 2—natural gas transmission (other than flaring)................................................ 181
Division 3.3.7A—Natural gas storage (other than emissions that are vented or flared) 184
3.78A Application .................................................................................................................. 184
3.78B Available methods........................................................................................................ 184
3.78C Method 1—natural gas storage (other than emissions that are vented or flared)........... 184
3.78D Method 2—natural gas storage (other than emissions that are vented or flared)........... 185
3.78E Method 3—natural gas storage (other than emissions that are vented or flared)........... 186
Division 3.3.7B—Natural gas liquefaction, storage and transfer (other than emissions that are vented or flared) 189
3.78F Application. .................................................................................................................. 189
3.78G Available methods........................................................................................................ 189
3.78H Method 1—natural gas liquefaction, storage and transfer (other than emissions that are vented or flared) 189
3.78I Method 2—natural gas liquefaction, storage and transfer (other than emissions that are vented or flared) 190
3.78J Method 3—natural gas liquefaction, storage and transfer (other than venting and flaring) 191
Division 3.3.8—Natural gas distribution (other than emissions that are flared) 194
3.79 Application... .................................................................................................................. 194
3.80 Available methods........................................................................................................... 194
3.81 Method 1—natural gas distribution................................................................................. 194
3.82 Method 2—natural gas distribution................................................................................. 195
3.82A Method 3—natural gas distribution.............................................................................. 196
Division 3.3.9A—Natural gas production (emissions that are vented or flared) 198
3.83 Application... .................................................................................................................. 198
Subdivision 3.3.9A.1—Natural gas production—emissions that are vented—gas treatment processes 198
3.84 Available methods........................................................................................................... 198
3.85 Method 1—emissions from system upsets, accidents and deliberate releases from process vents—gas treatment processes.................................................................................................................. 198
Subdivision 3.3.9A.2—Natural gas production—emissions that are vented—cold process vents 199
3.85A Available methods........................................................................................................ 199
3.85B Method 1—emissions from system upsets, accidents and deliberate releases from process vents 199
Subdivision 3.3.9A.3—Natural gas production—emissions that are vented—natural gas blanketed tanks and condensate storage tanks 199
3.85C Available methods........................................................................................................ 199
3.85D Method 1—emissions from system upsets, accidents and deliberate releases from process vents—natural gas blanketed tanks and condensate storage tanks........................................................... 200
Subdivision 3.3.9A.4—Natural gas production—emissions that are vented—gas driven pneumatic devices 200
3.85E Available methods......................................................................................................... 200
3.85F Method 1—emissions from system upsets, accidents and deliberate releases from process vents—gas driven pneumatic devices...................................................................................................... 200
Subdivision 3.3.9A.5—Natural gas production—emissions that are vented—gas driven chemical injection pumps 201
3.85G Available methods........................................................................................................ 201
3.85H Method 1—emissions from system upsets, accidents and deliberate releases from process vents—gas driven chemical injection pumps......................................................................................... 201
Subdivision 3.3.9A.6—Natural gas production—emissions that are vented—well blowouts 201
3.85K Available methods........................................................................................................ 201
3.85L Method 1—emissions from system upsets, accidents and deliberate releases from process vents—production related non-routine emissions—well blowouts............................................................ 202
Subdivision 3.3.9A.7—Natural gas production—emissions that are vented—CO2 stimulation 202
3.85M Available methods....................................................................................................... 202
3.85N Method 1—emissions from system upsets, accidents and deliberate releases from process vents—production related non-routine emissions—CO2 stimulation......................................................... 202
Subdivision 3.3.9A.8—Natural gas production—emissions that are vented—well workovers 203
3.85O Available methods........................................................................................................ 203
3.85P Method 1—vented emissions from well workovers..................................................... 203
3.85Q Method 4—vented emissions from gas well workovers.............................................. 204
Subdivision 3.3.9A.9—Natural gas production—emissions that are vented—vessel blowdowns, compressor starts and compressor blowdowns 204
3.85R Available methods........................................................................................................ 204
3.85S Method 1—emissions from system upsets, accidents and deliberate releases from process vents—production related non-routine emissions—vessel blowdowns, compressor starts and compressor blowdowns 205
Subdivision 3.3.9A.10—Natural gas production (emissions that are flared) 205
3.86 Method 1—gas flared from natural gas production......................................................... 206
3.87 Method 2—gas flared from natural gas production......................................................... 206
3.87A Method 2A—natural gas production (flared methane or nitrous oxide emissions)....... 207
3.88 Method 3—gas flared from natural gas production......................................................... 207
Division 3.3.9B—Natural gas gathering and boosting (emissions that are vented or flared) 208
3.88A Application 208
Subdivision 3.3.9B.1—Natural gas gathering and boosting (emissions that are vented) 208
3.88B Available methods........................................................................................................ 208
3.88C Method 1—emissions from system upsets, accidents and deliberate releases from process vents—gas gathering and boosting emissions.................................................................................... 208
Subdivision 3.3.9B.2—Natural gas gathering and boosting (emissions that are flared) 209
Division 3.3.9C—Natural gas processing (emissions that are vented or flared) 210
3.88E Application. 210
Subdivision 3.3.9C.1—Natural gas processing (emissions that are vented) 210
3.88F Available methods......................................................................................................... 210
3.88G Method 1—emissions from system upsets, accidents and deliberate releases from process vents—gas processing 210
Subdivision 3.3.9C.2—Natural gas processing (emissions that are flared) 210
Division 3.3.9D—Natural gas transmission (emissions that are flared) 212
3.88I Application.. 212
Note: Vented emissions from Natural gas transmission are estimated under Division 3.3.7. 212
Division 3.3.9E—Natural gas storage (emissions that are vented or flared) 213
3.88K Application. 213
Subdivision 3.3.9E.1——Natural gas storage (emissions that are vented) 213
3.88L Available methods......................................................................................................... 213
3.88M Method 1—emissions from system upsets, accidents and deliberate releases from process vents—gas storage related non‑routine emissions............................................................................... 213
a The emission factor at Table 5-26 ‘Gas storage station venting’ must be used for each instance of a natural gas storage station if emissions are estimated according to section 5.7.4. 214
Subdivision 3.3.9E.2—Natural gas storage (emissions that are flared) 214
Division 3.3.9F— Natural gas liquefaction, storage and transfer (emissions that are vented or flared) 215
3.88O Application 215
Subdivision 3.3.9F.1—Natural gas liquefaction, storage and transfer (emissions that are vented) 215
3.88P Available methods......................................................................................................... 215
3.88Q Method 1—emissions from system upsets, accidents and deliberate releases from process vents— natural gas liquefaction, storage and transfer................................................................................... 215
a The emission factor at Table 5-26 ‘Gas storage station venting’ must be used for each instance of an LNG station if emissions are estimated according to section 5.7.4. 216
Subdivision 3.3.9F.2—Natural gas liquefaction, storage and transfer (emissions that are flared) 216
Division 3.3.9G—Natural gas distribution (emissions that are flared) 217
3.88S Application.................................................................................................................... 217
Part 3.4—Carbon capture and storage and enhanced oil recovery—fugitive emissions 218
Division 3.4.1—Preliminary 218
3.88 Outline of Part................................................................................................................. 218
Division 3.4.2—Transport of greenhouse gases 219
Subdivision 3.4.2.1—Preliminary 219
3.89 Application...................................................................................................................... 219
3.90 Available methods........................................................................................................... 219
Subdivision 3.4.2.2—Emissions from transport of greenhouse gases involving transfer 220
3.91 Method 1—emissions from transport of greenhouse gases involving transfer................ 220
Subdivision 3.4.2.3—Emissions from transport of greenhouse gases not involving transfer 220
3.92 Method 1—emissions from transport of greenhouse gases not involving transfer.......... 220
Division 3.4.3—Injection of greenhouse gases 222
Subdivision 3.4.3.1—Preliminary 222
3.93 Application... 222
3.94 Available methods........................................................................................................... 222
Subdivision 3.4.3.2—Fugitive emissions from deliberate releases from process vents, system upsets and accidents 222
3.95 Method 2—fugitive emissions from deliberate releases from process vents, system upsets and accidents 222
Subdivision 3.4.3.3—Fugitive emissions from injection of greenhouse gases (other than emissions from deliberate releases from process vents, system upsets and accidents) 223
3.96 Method 2—fugitive emissions from injection of a greenhouse gas into a geological formation (other than deliberate releases from process vents, system upsets and accidents)..................................... 223
3.97 Method 3—fugitive emissions from injection of greenhouse gases (other than deliberate releases from process vents, system upsets and accidents)................................................................................. 223
Division 3.4.4—Storage of greenhouse gases 224
Subdivision 3.4.4.1—Preliminary 224
3.98 Application...................................................................................................................... 224
3.99 Available method............................................................................................................. 224
Subdivision 3.4.4.2—Fugitive emissions from the storage of greenhouse gases 224
3.100 Method 2—fugitive emissions from geological formations used for the storage of greenhouse gases 224
Chapter 4—Industrial processes emissions 226
Part 4.1—Preliminary 226
4.1 Outline of Chapter............................................................................................................. 226
Part 4.2—Industrial processes—mineral products 227
Division 4.2.1—Cement clinker production 227
4.2 Application..... 227
4.3 Available methods............................................................................................................. 227
4.4 Method 1—cement clinker production.............................................................................. 227
4.5 Method 2—cement clinker production.............................................................................. 228
4.6 General requirements for sampling cement clinker............................................................ 229
4.7 General requirements for analysing cement clinker........................................................... 229
4.8 Method 3—cement clinker production.............................................................................. 229
4.9 General requirements for sampling carbonates.................................................................. 231
4.10 General requirements for analysing carbonates............................................................... 231
Division 4.2.2—Lime production 232
4.11 Application... 232
4.12 Available methods........................................................................................................... 232
4.13 Method 1—lime production............................................................................................ 232
4.14 Method 2—lime production............................................................................................ 233
4.15 General requirements for sampling.................................................................................. 233
4.16 General requirements for analysis of lime....................................................................... 234
4.17 Method 3—lime production............................................................................................ 234
4.18 General requirements for sampling.................................................................................. 235
4.19 General requirements for analysis of carbonates............................................................. 236
Division 4.2.3—Use of carbonates for production of a product other than cement clinker, lime or soda ash 237
4.20 Application... 237
4.21 Available methods........................................................................................................... 237
4.22 Method 1—product other than cement clinker, lime or soda ash..................................... 238
4.22A Method 1A—product other than cement clinker, lime or soda ash for use of carbonates in clay materials 238
4.23 Method 3—product other than cement clinker, lime or soda ash..................................... 239
4.23A Method 3A—product other than cement clinker, lime or soda ash for use of carbonates in clay materials 240
4.23B General requirements for sampling clay material.......................................................... 241
4.23C General requirements for analysing clay material.......................................................... 241
4.24 General requirements for sampling carbonates................................................................ 241
4.25 General requirements for analysis of carbonates............................................................. 242
Division 4.2.4—Soda ash use and production 243
4.26 Application... .................................................................................................................. 243
4.27 Outline of Division.......................................................................................................... 243
Subdivision 4.2.4.1—Soda ash use 243
4.28 Available methods........................................................................................................... 243
4.29 Method 1—use of soda ash............................................................................................. 243
Subdivision 4.2.4.2—Soda ash production 244
4.30 Available methods........................................................................................................... 244
4.31 Method 1—production of soda ash................................................................................. 244
4.32 Method 2—production of soda ash................................................................................. 246
4.33 Method 3—production of soda ash................................................................................. 248
Division 4.2.5—Measurement of quantity of carbonates consumed and products derived from carbonates 249
4.34 Purpose of Division........................................................................................................ 249
4.35 Criteria for measurement................................................................................................. 249
4.36 Indirect measurement at point of consumption or production—criterion AA.................. 250
4.37 Direct measurement at point of consumption or production—criterion AAA................. 250
4.38 Acquisition or use or disposal without commercial transaction—criterion BBB............. 251
4.39 Units of measurement...................................................................................................... 251
Part 4.3—Industrial processes—chemical industry 252
Division 4.3.1—Ammonia production 252
4.40 Application...................................................................................................................... 252
4.41 Available methods........................................................................................................... 252
4.42 Method 1—ammonia production..................................................................................... 252
4.43 Method 2—ammonia production..................................................................................... 253
4.44 Method 3—ammonia production..................................................................................... 254
Division 4.3.2—Nitric acid production 255
4.45 Application...................................................................................................................... 255
4.46 Available methods........................................................................................................... 255
4.47 Method 1—nitric acid production.................................................................................... 255
4.48 Method 2—nitric acid production.................................................................................... 256
Division 4.3.3—Adipic acid production 257
4.49 Application...................................................................................................................... 257
4.50 Available methods........................................................................................................... 257
Division 4.3.4—Carbide production 258
4.51 Application...................................................................................................................... 258
4.52 Available methods........................................................................................................... 258
Division 4.3.5—Chemical or mineral production, other than carbide production, using a carbon reductant or carbon anode 259
4.53 Application... 259
4.54 Available methods........................................................................................................... 259
4.55 Method 1—chemical or mineral production, other than carbide production, using a carbon reductant or carbon anode 259
4.56 Method 2—chemical or mineral production, other than carbide production, using a carbon reductant or carbon anode 261
4.57 Method 3—chemical or mineral production, other than carbide production, using a carbon reductant or carbon anode 262
Division 4.3.6—Sodium cyanide production 263
4.58 Application... 263
4.59 Available methods........................................................................................................... 263
Division 4.3.7—Hydrogen production 263
4.60 Application... 263
4.61 Available methods........................................................................................................... 263
4.62A Method 2—hydrogen production................................................................................. 265
4.62B Method 3—hydrogen production................................................................................. 266
Part 4.4—Industrial processes—metal industry 267
Division 4.4.1—Iron, steel or other metal production using an integrated metalworks 267
4.63 Application...................................................................................................................... 267
4.64 Purpose of Division........................................................................................................ 267
4.65 Available methods for production of a metal from an integrated metalworks.................. 267
4.66 Method 1—production of a metal from an integrated metalworks................................... 267
4.67 Method 2—production of a metal from an integrated metalworks................................... 269
4.68 Method 3—production of a metal from an integrated metalworks................................... 270
Division 4.4.2—Ferroalloys production 271
4.69 Application...................................................................................................................... 271
4.70 Available methods........................................................................................................... 271
4.71 Method 1—ferroalloy metal............................................................................................ 271
4.72 Method 2—ferroalloy metal............................................................................................ 273
4.73 Method 3—ferroalloy metal............................................................................................ 274
Division 4.4.3—Aluminium production (carbon dioxide emissions) 275
4.74 Application... .................................................................................................................. 275
Sudivision 4.4.3.1—Aluminium—emissions from consumption of carbon anodes in aluminium production 275
4.75 Available methods........................................................................................................... 275
4.76 Method 1—aluminium (carbon anode consumption)...................................................... 275
4.77 Method 2—aluminium (carbon anode consumption)...................................................... 276
4.78 Method 3—aluminium (carbon anode consumption)...................................................... 276
Subdivision 4.4.3.2—Aluminium—emissions from production of baked carbon anodes in aluminium production 276
4.79 Available methods........................................................................................................... 276
4.80 Method 1—aluminium (baked carbon anode production)............................................... 277
4.81 Method 2—aluminium (baked carbon anode production)............................................... 277
4.82 Method 3—aluminium (baked carbon anode production)............................................... 278
Division 4.4.4—Aluminium production (perfluoronated carbon compound emissions) 279
4.83 Application... .................................................................................................................. 279
Subdivision 4.4.4.1—Aluminium—emissions of tetrafluoromethane in aluminium production 279
4.84 Available methods........................................................................................................... 279
4.85 Method 1—aluminium (tetrafluoromethane)................................................................... 279
4.86 Method 2—aluminium (tetrafluoromethane)................................................................... 279
4.87 Method 3—aluminium (tetrafluoromethane)................................................................... 279
Subdivision 4.4.4.2—Aluminium—emissions of hexafluoroethane in aluminium production 280
4.88 Available methods........................................................................................................... 280
4.89 Method 1—aluminium production (hexafluoroethane).................................................... 280
4.90 Method 2—aluminium production (hexafluoroethane).................................................... 280
4.91 Method 3—aluminium production (hexafluoroethane).................................................... 280
Division 4.4.5—Other metals production 281
4.92 Application...................................................................................................................... 281
4.93 Available methods........................................................................................................... 281
4.94 Method 1—other metals.................................................................................................. 281
4.95 Method 2—other metals.................................................................................................. 283
4.96 Method 3—other metals.................................................................................................. 284
Part 4.5—Industrial processes—emissions of hydrofluorocarbons and sulphur hexafluoride gases 285
4.97 Application... .................................................................................................................. 285
4.98 Available method............................................................................................................. 285
4.99 Meaning of hydrofluorocarbons..................................................................................... 285
4.100 Meaning of synthetic gas generating activities.............................................................. 285
4.101 Reporting threshold....................................................................................................... 286
4.102 Method 1....................................................................................................................... 286
4.103 Method 2....................................................................................................................... 287
4.104 Method 3....................................................................................................................... 288
Chapter 5—Waste 289
Part 5.1—Preliminary 289
5.1 Outline of Chapter............................................................................................................. 289
Part 5.2—Solid waste disposal on land 290
Division 5.2.1—Preliminary 290
5.2 Application..... 290
5.3 Available methods............................................................................................................. 290
Division 5.2.2—Method 1—emissions of methane released from landfills 292
5.4 Method 1—methane released from landfills (other than from flaring of methane)............ 292
5.4A Estimates for calculating CH4gen..................................................................................... 293
5.4B Equation—change in quantity of particular opening stock at landfill for calculating CH4gen 294
5.4C Equation—quantity of closing stock at landfill in particular reporting year..................... 294
5.4D Equation—quantity of methane generated by landfill for calculating CH4gen.................. 295
5.5 Criteria for estimating tonnage of total solid waste............................................................ 297
5.6 Criterion A........................................................................................................................ 297
5.7 Criterion AAA........................................................................................................................ 297
5.8 Criterion BBB................................................................................................................... 297
5.9 Composition of solid waste............................................................................................... 298
5.10 General waste streams..................................................................................................... 298
5.10A Homogenous waste streams......................................................................................... 300
5.11 Waste mix types.............................................................................................................. 301
5.11A Certain waste to be deducted from waste received at landfill when estimating waste disposed in landfill 304
5.12 Degradable organic carbon content.................................................................................. 304
5.13 Opening stock of degradable organic carbon for the first reporting period...................... 305
5.14 Methane generation constants—(k values)...................................................................... 306
5.14A Fraction of degradable organic carbon dissimilated (DOCF)........................................ 309
5.14B Methane correction factor (MCF) for aerobic decomposition....................................... 310
5.14C Fraction by volume generated in landfill gas that is methane (F).................................. 310
5.14D Number of months before methane generation at landfill commences.......................... 310
Division 5.2.3—Method 2—emissions of methane released from landfills 311
Subdivision 5.2.3.1—methane released from landfills 311
5.15 Method 2—methane released by landfill (other than from flaring of methane)................ 311
5.15A Equation—change in quantity of particular opening stock at landfill for calculating CH4gen 314
5.15B Equation—quantity of closing stock at landfill in particular reporting year................... 314
5.15C Equation—collection efficiency limit at landfill in particular reporting year.................. 315
Subdivision 5.2.3.2—Requirements for calculating the methane generation constant (k) 316
5.16 Procedures for selecting representative zone................................................................... 316
5.17 Site plan—preparation and requirements......................................................................... 316
5.17AA Sub‑facility zones—maximum number and requirements......................................... 316
5.17A Representative zones—selection and requirements....................................................... 317
5.17B Independent verification................................................................................................ 317
5.17C Estimation of waste and degradable organic content in representative zone.................. 318
5.17D Estimation of gas collected at the representative zone................................................... 318
5.17E Estimating methane generated but not collected in the representative zone.................... 319
5.17F Walkover survey........................................................................................................... 319
5.17G Installation of flux boxes in representative zone........................................................... 320
5.17H Flux box measurements................................................................................................ 321
5.17I When flux box measurements must be taken................................................................. 322
5.17J Restrictions on taking flux box measurements............................................................... 322
5.17K Frequency of measurement........................................................................................... 323
5.17L Calculating the methane generation constant (ki) for certain waste mix types................ 323
Division 5.2.4—Method 3—emissions of methane released from solid waste at landfills 326
5.18 Method 3—methane released from solid waste at landfills (other than from flaring of methane) 326
Division 5.2.5—Solid waste at landfills—Flaring 327
5.19 Method 1—landfill gas flared.......................................................................................... 327
5.20 Method 2—landfill gas flared.......................................................................................... 327
5.21 Method 3—landfill gas flared.......................................................................................... 327
Division 5.2.6—Biological treatment of solid waste 328
5.22 Method 1—emissions of methane and nitrous oxide from biological treatment of solid waste 328
5.22AA Method 4—emissions of methane and nitrous oxide from biological treatment of solid waste 328
Division 5.2.7—Legacy emissions and non‑legacy emissions 329
5.22A Legacy emissions estimated using method 1—sub‑facility zone options...................... 329
5.22B Legacy emissions—formula and unit of measurement.................................................. 329
5.22C How to estimate quantity of methane captured for combustion from legacy waste for each sub‑facility zone 330
5.22D How to estimate quantity of methane in landfill gas flared from legacy waste in a sub‑facility zone 331
5.22E How to estimate quantity of methane captured for transfer out of landfill from legacy waste for each sub‑facility zone.................................................................................................................. 331
5.22F How to calculate the quantity of methane generated from legacy waste for a sub‑facility zone (CH4genlw z) 332
5.22G How to calculate total methane generated from legacy waste........................................ 332
5.22H How to calculate total methane captured and combusted from methane generated from legacy waste 332
5.22J How to calculate total methane captured and transferred offsite from methane generated from legacy waste 333
5.22K How to calculate total methane flared from methane generated from legacy waste....... 333
5.22L How to calculate methane generated in landfill gas from non‑legacy waste.................. 333
5.22M Calculating amount of total waste deposited at landfill................................................. 334
Part 5.3—Wastewater handling (domestic and commercial) 335
Division 5.3.1—Preliminary 335
5.23 Application... 335
5.24 Available methods........................................................................................................... 335
Division 5.3.2—Method 1—methane released from wastewater handling (domestic and commercial) 336
5.25 Method 1—methane released from wastewater handling (domestic and commercial)..... 336
Division 5.3.3—Method 2—methane released from wastewater handling (domestic and commercial) 340
5.26 Method 2—methane released from wastewater handling (domestic and commercial)..... 340
5.26A Requirements relating to sub‑facilities.......................................................................... 344
5.27 General requirements for sampling under method 2........................................................ 344
5.28 Standards for analysis..................................................................................................... 345
5.29 Frequency of sampling and analysis................................................................................ 345
Division 5.3.4—Method 3—methane released from wastewater handling (domestic and commercial) 346
5.30 Method 3—methane released from wastewater handling (domestic and commercial)..... 346
Division 5.3.5—Method 1—emissions of nitrous oxide released from wastewater handling (domestic and commercial) 347
5.31 Method 1—nitrous oxide released from wastewater handling (domestic and commercial) 347
Division 5.3.6—Method 2—emissions of nitrous oxide released from wastewater handling (domestic and commercial) 350
5.32 Method 2—nitrous oxide released from wastewater handling (domestic and commercial) 350
5.33 General requirements for sampling under method 2........................................................ 350
5.34 Standards for analysis..................................................................................................... 351
5.35 Frequency of sampling and analysis................................................................................ 351
Division 5.3.7—Method 3—emissions of nitrous oxide released from wastewater handling (domestic and commercial) 352
5.36 Method 3—nitrous oxide released from wastewater handling (domestic and commercial) 352
Division 5.3.8—Wastewater handling (domestic and commercial)—Flaring 353
5.37 Method 1—Flaring of methane in sludge biogas from wastewater handling (domestic and commercial) 353
5.38 Method 2—flaring of methane in sludge biogas.............................................................. 353
5.39 Method 3—flaring of methane in sludge biogas.............................................................. 353
Part 5.4—Wastewater handling (industrial) 354
Division 5.4.1—Preliminary 354
5.40 Application... .................................................................................................................. 354
5.41 Available methods........................................................................................................... 354
Division 5.4.2—Method 1—methane released from wastewater handling (industrial) 355
5.42 Method 1—methane released from wastewater handling (industrial).............................. 355
Division 5.4.3—Method 2—methane released from wastewater handling (industrial) 359
5.43 Method 2—methane released from wastewater handling (industrial).............................. 359
5.44 General requirements for sampling under method 2........................................................ 359
5.45 Standards for analysis..................................................................................................... 359
5.46 Frequency of sampling and analysis................................................................................ 360
Division 5.4.4—Method 3—methane released from wastewater handling (industrial) 361
5.47 Method 3—methane released from wastewater handling (industrial).............................. 361
Division 5.4.5—Wastewater handling (industrial)—Flaring of methane in sludge biogas 362
5.48 Method 1—flaring of methane in sludge biogas.............................................................. 362
5.49 Method 2—flaring of methane in sludge biogas.............................................................. 362
5.50 Method 3—flaring of methane in sludge biogas.............................................................. 362
Part 5.5—Waste incineration 363
5.51 Application... 363
5.52 Available methods—emissions of carbon dioxide from waste incineration..................... 363
5.53 Method 1—emissions of carbon dioxide released from waste incineration..................... 363
Chapter 6—Energy 365
Part 6.1—Production 365
6.1 Purpose............................................................................................................................. 365
6.2 Quantity of energy produced............................................................................................. 365
6.3 Energy content of fuel produced........................................................................................ 366
Part 6.2—Consumption 368
6.4 Purpose............................................................................................................................. 368
6.5 Energy content of energy consumed.................................................................................. 368
Chapter 7—Scope 2 emissions 371
7.1 Application........................................................................................................................ 371
7.2 Method 1—purchase and loss of electricity from main electricity grid in a State or Territory 371
7.3 Method 1—purchase and loss of electricity from other sources........................................ 372
Chapter 8—Assessment of uncertainty 373
Part 8.1—Preliminary 373
8.1 Outline of Chapter............................................................................................................. 373
Part 8.2—General rules for assessing uncertainty 374
8.2 Range for emission estimates............................................................................................ 374
8.3 Required method............................................................................................................... 374
Part 8.3—How to assess uncertainty when using method 1 375
8.4 Purpose of Part.................................................................................................................. 375
8.5 General rules about uncertainty estimates for emissions estimates using method 1........... 375
8.6 Assessment of uncertainty for estimates of carbon dioxide emissions from combustion of fuels 375
8.7 Assessment of uncertainty for estimates of methane and nitrous oxide emissions from combustion of fuels 378
8.8 Assessment of uncertainty for estimates of fugitive emissions.......................................... 379
8.9 Assessment of uncertainty for estimates of emissions from industrial process sources.... 380
8.10 Assessment of uncertainty for estimates of emissions from waste.................................. 381
8.11 Assessing uncertainty of emissions estimates for a source by aggregating parameter uncertainties 381
Source 3N—Production of other metals
| Item | Method | Matters to be identified |
| 1 | Method 1 for the source, as set out in section 4.94 | (a) the tonnes of other metals produced (b) the carbon content of the other metals produced, in tonnes of carbon per tonne of output |
| (c) the tonnes of solid waste by‑products containing carbon produced | ||
| (d) the average carbon content factor of solid waste by‑products, in tonnes of carbon per tonne of solid waste by‑product | ||
| (e) the change in stock containing carbon, in tonnes (f) the carbon content factor of the change in stock, in tonnes of carbon per tonne of stock | ||
| (g) the tonnes of pure calcium carbonate limestone consumed (h) the tonnes of pure dolomite consumed | ||
| (i) the tonnes of pure magnesium carbonate consumed (j) the tonnes of any other pure carbonate consumed | ||
| 2 | Methods 2, 3 and 4 for the source, as set out in sections 4.95, 4.96 and Part 1.3 | (a) the tonnes of other metal produced (b) the carbon content factor of the other metal, in tonnes of carbon per tonne of output (c) the tonnes of solid waste by‑products containing carbon produced |
| (d) the average carbon content factor of solid waste by‑products, in tonnes of carbon per tonne of solid waste by‑product | ||
| (e) the change in stock containing carbon, in tonnes (f) the carbon content factor of the change in stock, in tonnes of carbon per tonne of stock | ||
| (g) the facility specific carbon content factor for each fuel type consumed, or each carbonaceous input material consumed, in tonnes of carbon per: | ||
| (i) tonne of fuel or carbonaceous input material; or (ii) cubic metre of fuel or carbonaceous input material; or (iii) kilolitre of fuel or carbonaceous input material | ||
| (h) the tonnes of pure calcium carbonate consumed (i) the tonnes of pure dolomite consumed | ||
| (j) the tonnes of pure magnesium carbonate consumed (k) the tonnes of any other pure carbonate consumed |
Part 6—Waste
Source 4A—Solid waste disposal on land
| Item | Method | Matters to be identified |
| 1 | Method 1 for the source, as set out in sections 5.4 and 5.22 | (a) the location of the landfill facility by State or Territory or by landfill classification specified in the Determination (b) the number of years in operation |
| (c) the average annual amount (in tonnes) of disposal of solid waste over the lifetime of the landfill facility prior to the first year of reporting | ||
| (d) the total tonnes of waste entering the landfill | ||
| (e) the tonnes of waste entering the landfill from each of the following: (i) municipal sources; (ii) commercial and industrial sources; (iii) construction and demolition sources; | ||
| (iv) alternative waste treatment facilities; (v) shredder flock; (vi) inert waste (f) the tonnes of waste received at the landfill facility for each of the following: (i) transfer to an external recycling or biological treatment facility; | ||
| (ii) recycling or biological treatment onsite; | ||
| (iii) construction purposes, daily cover purposes, intermediate cover purposes or final capping and cover purposes (inert waste only) | ||
| (g) the percentages of each waste mix type entering the landfill in each of the following: (i) municipal solid waste; (ii) commercial and industrial waste; (iii) construction and demolition waste; (iv) shredder flock | ||
| (h) the opening stock of degradable organic carbon, in tonnes | ||
| (i) if the total amount of scope 1 emissions from the operation of the facility during the year is more than 100 000 tonnes CO2‑e—the following matters: (i) the legacy emissions from decomposition of waste; (ii) the emissions, other than legacy emissions, from decomposition of waste; (iii) the tonnes of methane (CO2‑e) captured for combustion that are legacy emissions; (iv) the tonnes of methane (CO2‑e) captured for combustion that are not legacy emissions; (v) the tonnes of methane (CO2‑e) captured and transferred offsite that are legacy emissions; (vi) the tonnes of methane (CO2‑e) captured and transferred offsite that are not legacy emissions; (vii) the tonnes of methane (CO2‑e) flared that are legacy emissions; (viii) the tonnes of methane (CO2‑e) flared that are not legacy emissions; | ||
| (j) if the total amount of scope 1 emissions from the operation of the facility during the year is 100 000 tonnes CO2‑e or less—the following matters: (i) the emissions from decomposition of waste; (ii) the tonnes of methane (CO2‑e) captured for combustion; (iii) the tonnes of methane (CO2‑e) captured and transferred offsite; (iv) the tonnes of methane (CO2‑e) flared; | ||
| (n) the tonnes of waste treated by each of the following methods: (i) composting; (ii) anaerobic digestion | ||
| (o) the tonnes of methane (CO2‑e) captured from each of the following: (i) composting; (ii) anaerobic digestion | ||
| 2 | Methods 2, 3 and 4 for the source, as set out in sections 5.15, 5.18 and 5.22AA | (a) the location of the landfill facility by State or Territory (b) the number of years in operation (c) the average annual amount (in tonnes) of disposal of solid waste over the lifetime of the landfill facility prior to the first year of reporting |
| (d) the total tonnes of waste entering the landfill (e) the opening stock of degradable organic carbon, in tonnes | ||
| (f) the tonnes of waste entering the landfill from each of the following: (i) municipal sources; (ii) commercial and industrial sources; (iii) construction and demolition sources; (iv) alternative waste treatment facilities; (v) shredder flock; (vi) inert waste | ||
| (g) the percentages of each waste mix type entering the landfill in each of the following: (i) municipal solid waste; (ii) commercial and industrial waste; (iii) construction and demolition waste | ||
| (h) the tonnes of waste received at the landfill facility for each of the following: (i) transfer to an external recycling or biological treatment facility; (ii) recycling or biological treatment onsite; | ||
| (iii) construction purposes, daily cover purposes, intermediate cover purposes or final capping and cover purposes (inert waste only) | ||
| (i) the facility specific k value for each of the following waste mix types: (i) food; (ii) paper and cardboard; (iii) garden and green; (iv) wood; (v) textiles; (vi) sludge; (vii) nappies; (viii) rubber and leather; (ix) alternative waste treatment residues | ||
| (j) if the total amount of scope 1 emissions from the operation of the facility during the year is more than 100 000 tonnes CO2‑e—the following matters: (i) the legacy emissions from decomposition of waste; (ii) the emissions, other than legacy emissions, from decomposition of waste; (iii) the tonnes of methane (CO2‑e) captured for combustion that are legacy emissions; (iv) the tonnes of methane (CO2‑e) captured for combustion that are not legacy emissions; (v) the tonnes of methane (CO2‑e) captured and transferred offsite that are legacy emissions; (vi) the tonnes of methane (CO2‑e) captured and transferred offsite that are not legacy emissions; (vii) the tonnes of methane (CO2‑e) flared that are legacy emissions; (viii) the tonnes of methane (CO2‑e) flared that are not legacy emissions; | ||
| (k) if the total amount of scope 1 emissions from the operation of the facility during the year is 100 000 tonnes CO2‑e or less—the following matters: (i) the emissions from decomposition of waste; (ii) the tonnes of methane (CO2‑e) captured for combustion; (iii) the tonnes of methane (CO2‑e) captured and transferred offsite; (iv) the tonnes of methane (CO2‑e) flared; | ||
| (o) the tonnes of waste treated by each of the following methods: (i) composting; (ii) anaerobic digestion (p) the tonnes of methane (CO2‑e) captured from each of the following: (i) composting; (ii) anaerobic digestion |
Source 4B—Wastewater handling—industrial
| Item | Method | Matters to be identified |
| 1 | Method 1 for the source, as set out in sections 5.25 and 5.31 | (a) the tonnes of commodity produced (b) the fraction of wastewater anaerobically treated |
| (c) the fraction of COD removed as sludge | ||
| (d) the fraction of COD in sludge anaerobically treated on site (e) the tonnes of COD in sludge transferred off site and disposed of at a landfill facility | ||
| (f) the tonnes of COD in sludge transferred off site and disposed of at a site other than a landfill facility (g) the tonnes of COD in effluent leaving the site (h) the tonnes of methane (CO2‑e) captured for production of electricity on site | ||
| (i) the tonnes of methane (CO2‑e) captured and transferred off site (j) the tonnes of methane (CO2‑e) flared | ||
| 2 | Methods 2 and 3 for the source, as set out in sections 5.26, 5.30, 5.32 and 5.36 | (a) the tonnes of commodity produced (b) the tonnes of COD measured entering the treatment site (c) the fraction of wastewater anaerobically treated |
| (d) the tonnes of COD removed as sludge | ||
| (e) the fraction of COD in sludge anaerobically treated on site | ||
| (f) the tonnes of COD in sludge transferred off site and disposed of at a landfill facility (g) the tonnes of COD in sludge transferred off site and disposed of at a site other than a landfill facility | ||
| (h) the tonnes of COD in effluent leaving the site (i) the tonnes of emissions (CO2‑e) generated (j) the tonnes of methane (CO2‑e) captured for production of electricity on site | ||
| (k) the tonnes of methane (CO2‑e) captured and transferred off site (l) the tonnes of methane (CO2‑e) flared |
Source 4C—Wastewater handling—domestic or commercial
| Item | Method | Matters to be identified |
| 1 | Method 1 for the source, as set out in section 5.42 | (a) the population served by the wastewater treatment plant (b) the fraction of COD in wastewater anaerobically treated |
| (c) the tonnes of COD removed as sludge | ||
| (d) the fraction of COD in sludge anaerobically treated on site (e) the tonnes of COD in sludge transferred off site and disposed of at a landfill facility | ||
| (f) the tonnes of COD in sludge transferred off site and disposed of at a site other than a landfill facility | ||
| (g) the tonnes of methane (CO2‑e) captured for combustion on site | ||
| (h) the tonnes of methane (CO2‑e) captured and transferred off site (i) the tonnes of methane (CO2‑e) flared | ||
| (j) the tonnes of COD in effluent leaving the site (k) the tonnes of nitrogen in sludge transferred out of the plant and disposed of at a landfill facility (l) the tonnes of nitrogen in sludge transferred out of the plant and disposed of at a site other than a landfill facility | ||
| (m) the tonnes of nitrogen in effluent leaving the plant into enclosed waters (n) the tonnes of nitrogen in effluent leaving the plant into estuarine waters (o) the tonnes of nitrogen in effluent leaving the plant into open coastal waters | ||
| 2 | Methods 2 and 3 for the source, as set out in sections 5.43 and 5.47 | (a) the population served by the wastewater treatment plant (b) the tonnes of COD measured entering treatment facility (c) the fraction of COD in wastewater anaerobically treated |
| (d) the tonnes of COD removed as sludge (e) the fraction of COD in sludge anaerobically treated | ||
| (f) the tonnes of methane (CO2‑e) generated from the decomposition of COD | ||
| (g) the tonnes of methane (CO2‑e) captured for combustion on site (h) the tonnes of methane (CO2‑e) captured and transferred off site (i) the tonnes of methane (CO2‑e) flared | ||
| (j) the tonnes of COD in effluent leaving the site | ||
| (k) the tonnes of COD in sludge transferred offsite and disposed of at a landfill facility | ||
| (l) the tonnes of COD in sludge transferred offsite to a site other than a landfill facility | ||
| (m) the tonnes of nitrogen in influent entering the plant | ||
| (n) the tonnes of nitrogen in sludge transferred out of the plant and disposed of at a landfill facility | ||
| (o) the tonnes of nitrogen in sludge transferred out of the plant and disposed of at a site other than a landfill facility | ||
| (p) the tonnes of nitrogen in effluent leaving the plant into enclosed waters | ||
| (q) the tonnes of nitrogen in effluent leaving the plant into estuarine waters | ||
| (r) the tonnes of nitrogen in effluent leaving the plant into open coastal waters |
Source 4D—Waste incineration
| Item | Method | Matters to be identified |
| 1 | Methods 1 and 4 for the source, as set out in section 5.53 and Part 1.3 | the tonnes of waste incinerated |
Endnotes
Endnote 1—About the endnotes
The endnotes provide information about this compilation and the compiled law.
The following endnotes are included in every compilation:
Endnote 1—About the endnotes
Endnote 2—Abbreviation key
Endnote 3—Legislation history
Endnote 4—Amendment history
Abbreviation key—Endnote 2
The abbreviation key sets out abbreviations that may be used in the endnotes.
Legislation history and amendment history—Endnotes 3 and 4
Amending laws are annotated in the legislation history and amendment history.
The legislation history in endnote 3 provides information about each law that has amended (or will amend) the compiled law. The information includes commencement details for amending laws and details of any application, saving or transitional provisions that are not included in this compilation.
The amendment history in endnote 4 provides information about amendments at the provision (generally section or equivalent) level. It also includes information about any provision of the compiled law that has been repealed in accordance with a provision of the law.
Misdescribed amendments
A misdescribed amendment is an amendment that does not accurately describe the amendment to be made. If, despite the misdescription, the amendment can be given effect as intended, the amendment is incorporated into the compiled law and the abbreviation “(md)” added to the details of the amendment included in the amendment history.
If a misdescribed amendment cannot be given effect as intended, the abbreviation “(md not incorp)” is added to the details of the amendment included in the amendment history.
Endnote 2—Abbreviation key
| ad = added or inserted | o = order(s) |
| am = amended | Ord = Ordinance |
| amdt = amendment | orig = original |
| c = clause(s) | par = paragraph(s)/subparagraph(s) |
| C[x] = Compilation No. x | /sub‑subparagraph(s) |
| Ch = Chapter(s) | pres = present |
| def = definition(s) | prev = previous |
| Dict = Dictionary | (prev…) = previously |
| disallowed = disallowed by Parliament | Pt = Part(s) |
| Div = Division(s) | r = regulation(s)/rule(s) |
| exp = expires/expired or ceases/ceased to have | reloc = relocated |
| effect | renum = renumbered |
| F = Federal Register of Legislation | rep = repealed |
| gaz = gazette | rs = repealed and substituted |
| LA = Legislation Act 2003 | s = section(s)/subsection(s) |
| LIA = Legislative Instruments Act 2003 | Sch = Schedule(s) |
| (md) = misdescribed amendment can be given | Sdiv = Subdivision(s) |
| effect | SLI = Select Legislative Instrument |
| (md not incorp) = misdescribed amendment | SR = Statutory Rules |
| cannot be given effect | Sub‑Ch = Sub‑Chapter(s) |
| mod = modified/modification | SubPt = Subpart(s) |
| No. = Number(s) | underlining = whole or part not |
| commenced or to be commenced |
Endnote 3—Legislation history
| Name | Registration | Commencement | Application, saving and transitional provisions |
| National Greenhouse and Energy Reporting (Measurement) Determination 2008 | 27 June 2008 (F2008L02309) | 1 July 2008 | |
| National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2009 (No. 1) | 26 June 2009 (F2009L02571) | 27 June 2009 | s 4 |
| National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2010 (No. 1) | 29 June 2010 (F2010L01855) | 30 June 2010 | s 4 |
| National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2011 (No. 1) | 29 June 2011 (F2011L01315) | s 1–4 and Sch 1: 1 July 2011 Sch 2: 1 July 2012 | s 4 |
| National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2012 (No. 1) | 29 June 2012 (F2012L01439) | 1 July 2012 | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2013 (No. 1) | 27 June 2013 (F2013L01191) | 1 July 2013 | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2014 (No. 1) | 26 June 2014 (F2014L00828) | s 1–4: 27 June 2014 (s 2 item 1) Sch 1: 1 July 2014 (s 2 item 2) Sch 2: 1 July 2015 (s 2 item 3) | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2015 (No. 1) | 27 Apr 2015 (F2015L00598) | 1 July 2015 (s 2) | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2015 (No. 2) | 30 June 2015 (F2015L01017) | Sch 1 and Sch 3 (item 1): 1 July 2015 (s 2(1) items 2, 4) Sch 2 and Sch 3 (item 2); 1 July 2016 (s 2(1) items 3, 5) | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment Determination 2016 (No. 1) | 17 May 2016 (F2016L00809) | 1 July 2016 (s 2(1) item 1) | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment (Energy) Determination 2017 | 30 June 2017 (F2017L00829) | 1 July 2017 (s 2(1) item 1) | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment (2018 Update) Determination 2018 | 28 June 2018 (F2018L00923) | 1 July 2018 (s 2(1) item 1) | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment (2019 Update) Determination 2019 | 28 June 2019 (F2019L00938) | 1 July 2019 (s 2(1) item 1) | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment (2020 Update) Determination 2020 Amended by National Greenhouse and Energy Reporting (Measurement) Amendment (2020 Update—Reference Correction) Determination 2020 | 29 June 2020 (F2020L00826 as amended by F2020L00865 registered on 30 June 2020) | 1 July 2020 (s 2) | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment (2021 Update) Determination 2021 | 17 June 2021 (F2021L00771) | 1 July 2021 (s 2) | — |
| National Greenhouse and Energy Reporting (Measurement) Amendment (2022 Update) Determination 2022 | 23 June 2022 (F2022L00815) | 1 July 2022 (s 2) | Section 9.15 of the National Greenhouse and Energy Reporting (Measurement) Determination 2008 |
Endnote 4—Amendment history
| Provision affected | How affected | ||
| Chapter 1 | |||
| Part 1.1 | |||
| s 1.2 | rep LA s 48D | ||
| s 1.4 | am F2021L00771 | ||
| Division 1.1.1 | |||
| s 1.3 | am 2009 No. 1; 2012 No. 1; 2013 No. 1; 2015 No 2; 2016 No 1; F2018L00923 | ||
| s 1.4 | am 2012 No. 1; 2013 No. 1; 2015 No 1 | ||
| Division 1.1.2 | |||
| s 1.8 | am 2009 No. 1; 2010 No. 1; 2011 No. 1; 2012 No. 1; 2013 No. 1; 2014 No. 1; 2015 No 2; 2016 No 1; F2018L00923; F2020L00826; F2021L00771; F2022L00815 | ||
| s 1.9 | am 2009 No. 1; 2010 No. 1; 2012 No. 1; 2014 No. 1; F2021L00771 | ||
| s 1.9A | ad 2013 No. 1 | ||
| s 1.9B | ad 2013 No. 1 | ||
| s 1.10 | rs 2009 No. 1; am F2021L00771 | ||
| am 2011 No. 1; 2012 No. 1; 2015 No 2 | |||
| Part 1.1A | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10A | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10B | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10C | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10D | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10E | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10F | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| Division 1.1A.3 | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10G | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| Division 1.1A.4 | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10H | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| Part 1.1B | |||
| Part 1.1B | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10J | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JA | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JB | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JC | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JD | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JE | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JF | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JG | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JH | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JI | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JJ | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JK | ad 2013 No. 1 | ||
| am 2014 No. 1 | |||
| rep 2015 No 1 | |||
| s 1.10JL | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JM | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JN | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JO | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JP | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10JQ | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| Part 1.1C | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10K | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KA | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KB | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KC | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KD | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KE | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KF | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KG | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KH | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KI | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KJ | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.19KK | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KL | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| s 1.10KM | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| rep 2015 No 1 | |||
| s 1.10KN | ad 2013 No. 1 | ||
| rep 2015 No 1 | |||
| Part 1.2 | |||
| s 1.11 | am 2016 No 1; F2018L00923 | ||
| Division 1.2.1 | |||
| s 1.12 | rs F2018L00923 | ||
| s 1.13 | am 2011 No. 1; No. 2013 No. 1 | ||
| rs F2018L00923 | |||
| Division 1.2.2 | |||
| s 1.18 | am 2012 No. 1; 2013 No. 1; F2018L00923 | ||
| s 1.18A | ad 2012 No. 1 | ||
| s 1.19 | am 2012 No. 1; 2013 No. 1; 2014 No. 1; 2016 No 1; F2018L00923 | ||
| Division 1.2.3 | |||
| Division 1.2.3 | ad 2010 No. 1 | ||
| s 1.19A | ad 2010 No. 1 | ||
| am 2016 No 1 | |||
| s 1.19B | ad 2010 No. 1 | ||
| am 2016 No 1 | |||
| s 1.19C | ad 2010 No. 1 | ||
| am 2016 No 1 | |||
| s 1.19D | ad 2010 No. 1 | ||
| am 2016 No 1 | |||
| s 1.19E | ad 2010 No. 1 | ||
| am 2016 No 1 | |||
| s 1.19F | ad 2010 No. 1 | ||
| am 2016 No 1 | |||
| s 1.19G | ad 2010 No. 1 | ||
| am 2014 No. 1; 2016 No 1 | |||
| s 1.19GA | ad 2016 No 1 | ||
| s 1.19H | ad 2010 No. 1 | ||
| am 2012 No. 1; 2016 No 1 | |||
| s 1.19I | ad 2010 No. 1 | ||
| am 2016 No 1 | |||
| ed C7 | |||
| s 1.19J | ad 2010 No. 1 | ||
| am 2012 No. 1 | |||
| s 1.19K | ad 2010 No. 1 | ||
| am 2012 No 1 | |||
| ed C7 | |||
| s 1.19L | ad 2010 No. 1 | ||
| s 1.19M | ad 2010 No. 1 | ||
| ed C7 | |||
| s 1.19N | ad 2010 No. 1 | ||
| rep 2016 No 1 | |||
| Part 1.3 | |||
| Division 1.3.2 | |||
| Subdivision 1.3.2.1 | |||
| s 1.21 | am 2011 No. 1 | ||
| s 1.21A | ad 2013 No. 1 | ||
| Division 1.3.3 | |||
| Subdivision 1.3.3.1 | |||
| s 1.27 | am 2011 No. 1 | ||
| s 1.27A | ad 2013 No. 1 | ||
| s 1.28 | am 2009 No. 1 | ||
| Chapter 2 | |||
| Chapter 2 heading | rs 2009 No. 1 | ||
| Part 2.1 | |||
| s 2.1 | rs 2009 No. 1 | ||
| Part 2.2 | |||
| Division 2.2.1 | |||
| s 2.2 | am 2009 No. 1 | ||
| rs 2013 No. 1 | |||
| s 2.3 | am 2009 No. 1; 2011 No. 1; 2012 No. 1 | ||
| Division 2.2.2 | |||
| s 2.4 | am 2009 No. 1 | ||
| Division 2.2.3 | |||
| Subdivision 2.2.3.1 | |||
| s 2.5 | am 2009 No. 1; 2010 No. 1; 2015 No 1; F2022L00815 | ||
| Subdivision 2.2.3.2 | |||
| s 2.6 | am 2009 No. 1; 2010 No. 1; F2022L00815 | ||
| Subdivision 2.2.3.3 | |||
| s 2.7 | am 2009 No. 1 | ||
| s 2.8 | am 2009 No. 1 | ||
| s 2.9 | am 2009 No. 1 | ||
| s 2.10 | am 2011 No. 1 | ||
| s 2.11 | am 2009 No. 1 | ||
| rs 2011 No. 1 | |||
| Division 2.2.4 | |||
| s 2.12 | am 2011 No. 1; 2013 No. 1; 2014 No. 1; F2022L00815 | ||
| Division 2.2.5 | |||
| s 2.14 | am 2009 No. 1 | ||
| s 2.15 | am 2011 No. 1; 2013 No. 1 | ||
| s 2.16 | am 2011 No. 1 | ||
| s 2.17 | am 2009 No. 1 | ||
| Part 2.3 | |||
| Division 2.3.1 | |||
| s 2.18 | am 2009 No. 1 | ||
| rs 2013 No. 1 | |||
| s 2.19 | am 2009 No. 1; 2011 No. 1; 2012 No. 1 | ||
| Division 2.3.2 | |||
| s 2.20 | am 2009 No. 1; 2010 No. 1 | ||
| Division 2.3.3 | |||
| Subdivision 2.3.3.1 | |||
| s 2.21 | am 2009 No. 1; 2010 No. 1; F2022L00815 | ||
| s 2.22 | am 2009 No. 1; 2010 No. 1; 2012 No. 1; 2015 No 1 | ||
| Subdivision 2.3.3.2 | |||
| s 2.24 | am 2012 No. 1; F2022L00815 | ||
| s 2.25 | am 2010 No. 1; 2013 No. 1; F2018L00923 | ||
| s 2.26 | am F2022L00815 | ||
| Division 2.3.5 | |||
| s 2.27 | am F2021L00771 | ||
| Division 2.3.6 | |||
| s 2.29 | am 2009 No. 1 | ||
| s 2.30 | am 2011 No. 1; 2013 No. 1 | ||
| s 2.31 | am 2011 No. 1; 2012 No. 1; 2013 No. 1; 2014 No. 1 | ||
| s 2.32 | am 2009 No. 1; 2010 No. 1; 2012 No. 1; 2014 No. 1 | ||
| s 2.33 | rs 2012 No. 1 | ||
| s 2.34 | am 2012 No. 1 | ||
| s 2.35 | am 2010 No. 1; 2012 No. 1 | ||
| s 2.36 | rs 2012 No. 1 | ||
| s 2.37 | rs 2012 No. 1 | ||
| s 2.38 | am 2009 No. 1; 2011 No. 1; 2014 No. 1 | ||
| Part 2.4 | |||
| Division 2.4.1 | |||
| s 2.39 | am 2009 No. 1 | ||
| rs 2013 No. 1 | |||
| s 2.39A | ad 2009 No. 1 | ||
| Subdivision 2.4.1.1 | |||
| Subdivision 2.4.1.1 heading | ad 2009 No. 1 | ||
| s 2.40 | am 2009 No. 1 | ||
| Subdivision 2.4.1.2 | |||
| Subdivision 2.4.1.2 | ad 2009 No. 1 | ||
| s 2.40A | ad 2009 No. 1 | ||
| Division 2.4.2 | |||
| Division 2.4.2 heading | rs 2009 No. 1 | ||
| s 2.41 | am 2009 No. 1; 2010 No. 1 | ||
| Division 2.4.3 | |||
| Division 2.4.3 heading | rs 2009 No. 1 | ||
| Subdivision 2.4.3.1 | |||
| Subdivision 2.4.3.1 heading | rs 2009 No. 1 | ||
| s 2.42 | am 2009 No. 1; 2010 No. 1 | ||
| s 2.43 | am 2009 No. 1; 2010 No. 1; 2015 No 1 | ||
| Subdivision 2.4.3.2 | |||
| s 2.45 | am 2010 No. 1; am F2021L00771 | ||
| Division 2.4.4 | |||
| Division 2.4.4 heading | rs 2009 No. 1 | ||
| s 2.47 | am F2021L00771 | ||
| Division 2.4.5 | |||
| Division 2.4.5 | rs 2009 No. 1 | ||
| s 2.48 | am 2012 No. 1 | ||
| Division 2.4.5A | |||
| Division 2.4.5A | ad 2009 No. 1 | ||
| s 2.48A | ad 2009 No. 1 | ||
| am 2011 No. 1 | |||
| s 2.48B | ad 2009 No. 1 | ||
| s 2.48C | ad 2009 No. 1 | ||
| Division 2.4.6 | |||
| s 2.50 | am 2009 No. 1 | ||
| s 2.51 | am 2010 No. 1; 2013 No. 1 | ||
| s 2.52 | am 2010 No. 1; 2013 No. 1 | ||
| s 2.53 | am 2009 No. 1; 2010 No. 1 | ||
| Part 2.5 | |||
| s 2.54 | rs 2009 No. 1 | ||
| Division 2.5.1 | |||
| s 2.55 | am 2009 No. 1 | ||
| Division 2.5.2 | |||
| Division 2.5.2 heading | rs 2011 No. 1 | ||
| s 2.57 | am 2009 No. 1; 2011 No. 1 | ||
| s 2.58 | am 2009 No. 1; 2011 No. 1 | ||
| Division 2.5.3 | |||
| s 2.59 | am 2009 No. 1 | ||
| s 2.60 | am 2009 No. 1 | ||
| s 2.62 | am 2010 No. 1 | ||
| s 2.63 | am 2010 No. 1 | ||
| Part 2.6 | |||
| s 2.66 | am 2009 No. 1; 2011 No. 1 | ||
| s 2.67 | am 2009 No. 1; 2011 No. 1 | ||
| s 2.67A | ad F2022L00815 | ||
| Part 2.7 | |||
| s 2.68 | rs 2012 No. 1 | ||
| am 2013 No. 1; F2018L00923 | |||
| s 2.71 | am 2013 No. 1; F2018L00923 | ||
| Chapter 3 | |||
| Chapter 3 heading | rs 2009 No. 1; 2010 No. 1 | ||
| Part 3.1 | |||
| s 3.1 | rs 2009 No. 1; 2010 No. 1 | ||
| Part 3.2 | |||
| Part 3.2 heading | rs 2009 No. 1 | ||
| Division 3.2.1 | |||
| s 3.2 | rs 2009 No. 1 | ||
| Division 3.2.2 | |||
| Subdivision 3.2.2.1 | |||
| s 3.3 | am 2009 No. 1 | ||
| s 3.4 | am 2009 No. 1; 2013 No. 1 | ||
| s 3.5 | am 2015 No 1; F2020L00826 | ||
| Subdivision 3.2.2.2 | |||
| s 3.6 | am 2011 No. 1; 2014 No 1; 2015 No 2; F2020L00826 | ||
| s 3.13 | am 2015 No 2 | ||
| Subdivision 3.2.2.3 | |||
| s 3.14 | am 2009 No. 1; 2015 No 1 | ||
| s 3.15 | rs 2011 No. 1; 2013 No. 1 | ||
| am 2015 No 1 | |||
| s 3.15A | ad 2013 No. 1 | ||
| am 2015 No 1 | |||
| s 3.16 | rs 2011 No. 1 | ||
| am 2013 No. 1 | |||
| s 3.17 | am 2015 No 1; F2020L00826 | ||
| Division 3.2.3 | |||
| Subdivision 3.2.3.1 | |||
| s 3.18 | am 2009 No. 1 | ||
| s 3.19 | am 2009 No. 1 | ||
| Subdivision 3.2.3.2 | |||
| s 3.20 | am 2013 No. 1; 2015 No 1; F2020L00826 | ||
| s 3.21 | am 2012 No. 1; 2015 No 1; F2020L00826 | ||
| s 3.22 | am 2010 No. 1; 2012 No. 1 | ||
| s 3.23 | am 2012 No. 1 | ||
| s 3.24 | am 2012 No. 1 | ||
| s 3.25 | am 2012 No. 1 | ||
| s 3.25A | ad 2012 No. 1 | ||
| s 3.25B | ad 2012 No. 1 | ||
| s 3.25C | ad 2012 No. 1 | ||
| s 3.25D | ad 2012 No. 1 | ||
| Division 3.2.4 | |||
| Subdivision 3.2.4.1 | |||
| s 3.30 | am 2009 No. 1 | ||
| rs F2018L00923 | |||
| s 3.31 | am 2009 No. 1; F2018L00923 | ||
| Subdivision 3.2.4.2 | |||
| s 3.32 | am 2010 No. 1; F2018L00923 | ||
| s 3.33 | am F2018L00923; F2022L00815 | ||
| s 3.34 | rs 2010 No. 1 | ||
| am F2018L00923 | |||
| Part 3.3 | |||
| Division 3.3.1 | |||
| Division 3.3.1 heading | rs F2021L00771 | ||
| s 3.40A | ad 2009 No. 1 | ||
| am 2014 No. 1; 2016 No 1 rep F2021L00771 | |||
| s 3.41 | rs 2009 No. 1; F2021L00771 | ||
| s 3.41A | ad F2021L00771 | ||
| Division 3.3.2 | |||
| Division 3.3.2 heading | rs 2009 No. 1; F2021L00771 | ||
| Subdivision 3.3.2.1 | |||
| Subdivision 3.3.2.1 | ad 2010 No. 1 | ||
| Subdivision 3.3.2.1 heading | rs F2021L00771 | ||
| s 3.42 | rs 2009 No. 1; | ||
| am 2010 No. 1; 2013 No. 1; rs F2021L00771 | |||
| Subdivision 3.3.2.2 | |||
| Subdivision 3.3.2.2 heading | ad 2010 No. 1 rs F2021L00771 | ||
| s 3.43 | am 2009 No. 1; 2011 No. 1; 2015 No 2 rs F2021L00771 | ||
| s 3.44 | am 2009 No. 1; 2015 No 1; F2020L00826 rs F2021L00771 | ||
| s 3.45 | am 2009 No. 1 | ||
| rs 2011 No. 1; | |||
| am 2015 No 1; 2015 No 2; rs F2021L00771 | |||
| s 3.45A | ad 2015 No 2 rs F2021L00771 | ||
| s 3.46 | am 2009 No. 1 | ||
| rs 2011 No. 1; F2021L00771 | |||
| Subdivision 3.3.2.3 | |||
| Subdivision 3.3.2.3 | ad 2010 No. 1 | ||
| Subdivision 3.3.2.3 heading | rs F2021L00771 | ||
| s 3.46A | ad 2010 No. 1 | ||
| rs 2012 No. 1; | |||
| am 2013 No. 1; 2014 No. 1; rs F2021L00771 | |||
| s 3.46AB | ad F2021L00771 | ||
| s 3.46B | ad 2013 No. 1; | ||
| am 2015 No 1; F2020L00826 | |||
| rs F2021L00771 | |||
| Division 3.3.3 | |||
| Division 3.3.3 heading | rs F2021L00771 | ||
| Subdivision 3.3.3.1 | |||
| Subdivision 3.3.3.1 heading | rs F2021L00771 | ||
| s 3.47 | rs 2009 No. 1; F2021L00771 | ||
| Subdivision 3.3.3.2 | |||
| Subdivision 3.3.3.2 heading | rs 2010 No. 1 | ||
| s 3.48 | am 2009 No. 1; 2010 No. 1 | ||
| rs F2021L00771 | |||
| s 3.49 | am 2010 No. 1; 2012 No. 1; 2015 No 1; F2020L00826 | ||
| rs F2021L00771 | |||
| s 3.50 | am 2010 No. 1; 2012 No. 1 | ||
| rs F2021L00771 | |||
| Subdivision 3.3.3.3 | |||
| Subdivision 3.3.3.3 heading | rs F2021L00771 | ||
| s 3.51 | rs F2021L00771 | ||
| s 3.52 (prev s 3.51) | am 2009 No. 1; 2011 No. 1; 2015 No 2 | ||
| rs F2021L00771 | |||
| s 3.53 (prev s 3.52) | am 2015 No 1; F2020L00826 | ||
| rs F2021L00771 | |||
| s 3.54 (prev s 3.53) | rs 2011 No. 1; | ||
| am 2015 No 1; rs F2021L00771 | |||
| s 3.54A (prev s 3.53A) | ad 2015 No 2 | ||
| rs F2021L00771 | |||
| s 3.55 (prev s 5.54) | rs 2011 No. 1; F2021L00771 | ||
| s 3.55 | am 2011 No 1 | ||
| rep 2015 No 2 | |||
| s 3.56 | am 2010 No. 1 | ||
| rep 2011 No. 1 | |||
| Subdivision 3.3.3.4 | |||
| Subdivision 3.3.3.4 | ad 2010 No. 1 | ||
| s 3.56A | ad 2010 No. 1 | ||
| rs 2012 No. 1; F2021L00771 | |||
| s 3.56B | ad F2021L00771 | ||
| Division 3.3.4 | |||
| s 3.57 | rs 2009 No. 1; F2021L00771 | ||
| s 3.58 | am 2009 No. 1 | ||
| rs F2021L00771 | |||
| s 3.59 | am 2015 No 2; F2020L00826 | ||
| rs F2021L00771 | |||
| s 3.60 | rs F2021L00771 | ||
| Division 3.3.5 | |||
| s 3.62 (prev s 3.61) | rs 2009 No. 1; F2021L00771 | ||
| s 3.63 (prev 3.62) | am 2009 No. 1; 2011 No. 1; 2015 No 2 | ||
| rs F2021L00771 | |||
| Subdivision 3.3.5.1 | |||
| s 3.64 (prev s 3.63) | am 2015 No 1; F2020L00826 | ||
| rs F2021L00771 | |||
| s 3.65 (prev s 3.64) | rs F2021L00771 | ||
| s 3.66 | ad F2021L00771 | ||
| Subdivision 3.3.5.2 | |||
| s 3.67 (prev s 3.65) | am 2009 No. 1 | ||
| rs F2021L00771 | |||
| s 3.68 (prev s 3.66) | rs F2021L00771 | ||
| Subdivision 3.3.5.3 | |||
| s 3.69 (prev s 3.67) | am 2011 No. 1; F2020L00826 | ||
| rs F2021L00771 | |||
| s 3.70 (prev s 3.68) | rs 2011 No. 1; | ||
| am 2015 No 1; rs F2021L00771 | |||
| s 3.70A (prev s 68A) | ad 2015 No 2 | ||
| rs F2021L00771 | |||
| s 3.71 (prev s 3.69) | am 2011 No 1 | ||
| rs F2021L00771 | |||
| Division 3.3.6 | |||
| Division 3.3.6 heading | rs 2009 No. 1; rep F2021L00771 | ||
| s 3.70 | rs 2009 No. 1; rep F2021L00771 | ||
| s 3.71 | am 2009 No. 1 rep F2021L00771 | ||
| Division 3.3.6A | |||
| Division 3.3.6A | ad F2021L00771 | ||
| s 3.72 (prev s 3.70) | am 2010 No. 1; 2012 No. 1; 2015 No 1; F2020L00826 | ||
| rs F2021L00771 | |||
| Subdivision 3.3.6A.1 | |||
| Subdivision 3.3.6A.1 | ad F2021L00771 | ||
| s 3.73 | am 2010 No. 1; 2012 No. 1 | ||
| rs F2021L00771 | |||
| s 3.73A | ad F2021L00771 | ||
| s 3.73B | ad F2021L00771 | ||
| s 3.73C | ad F2021L00771 | ||
| Division 3.3.6B | |||
| Division 3.3.6B | ad F2021L00771 | ||
| s 3.73D | ad F2021L00771 | ||
| Subdivision 3.3.6B.1 | |||
| Subdivision 3.3.6B.1 | ad F2021L00771 | ||
| s 3.73E | ad F2021L00771 | ||
| s 3.73F | ad F2021L00771 | ||
| s 3.73G | ad F2021L00771 | ||
| s 3.73H | ad F2021L00771 | ||
| Division 3.3.6C | |||
| Division 3.3.6C | ad F2021L00771 | ||
| s 3.73I | ad F2021L00771 | ||
| s 3.73J | ad F2021L00771 | ||
| s 3.73K | ad F2021L00771 | ||
| s 3.73KA | ad F2021L00771 | ||
| s 3.73KB | ad F2021L00771 | ||
| s 3.73L | ad F2021L00771 | ||
| s 3.73LA | ad F2021L00771 | ||
| s 3.73LB | ad F2021L00771 | ||
| s 3.73M | ad F2021L00771 | ||
| Division 3.3.6D | |||
| Division 3.3.6D | ad F2021L00771 | ||
| s 3.73N | ad F2021L00771 | ||
| s 3.73NA | ad F2021L00771 | ||
| s 3.73NB | ad F2021L00771 | ||
| Division 3.3.6E | |||
| Division 3.3.6E | ad F2021L00771 | ||
| s 3.73O | ad F2021L00771 | ||
| s 3.73P | ad F2021L00771 | ||
| s 3.73Q | ad F2021L00771 | ||
| s 3.73R | ad F2021L00771 | ||
| s 3.73S | ad F2021L00771 | ||
| Division 3.3.7 | |||
| Division 3.3.7 heading | rs F2021L00771 | ||
| s 3.74 | rs 2009 No. 1; F2021L00771 | ||
| s 3.75 | am 2009 No. 1 | ||
| rs F2021L00771 | |||
| s 3.76 | am 2015 No 1; F2020L00826 | ||
| rs F2021L00771 | |||
| s 3.77 | am 2012 No. 1 | ||
| rs F2021L00771 | |||
| s 3.78 | ad F2021L00771 | ||
| Division 3.3.7A | |||
| Division 3.3.7A | ad F2021L00771 | ||
| s 3.78A | ad F2021L00771 | ||
| s 3.78B | ad F2021L00771 | ||
| s 3.78C | ad F2021L00771 | ||
| s 3.78D | ad F2021L00771 | ||
| s 3.78E | ad F2021L00771 | ||
| Division 3.3.7B | |||
| Division 3.3.7B | ad F2021L00771 | ||
| s 3.78F | ad F2021L00771 | ||
| s 3.78G | ad F2021L00771 | ||
| s 3.78H | ad F2021L00771 | ||
| s 3.78I | ad F2021L00771 | ||
| s 3.78J | ad F2021L00771 | ||
| Division 3.3.8 | |||
| Division 3.3.8 heading | rs F2021L00771 | ||
| s 3.79 (prev s 3.78) | rs 2009 No. 1; F2021L00771 | ||
| s 3.80 (prev s 3.79) | am 2009 No. 1 rs F2019L00938; F2021L00771 | ||
| s 3.81 (prev 3.80) | am 2011 No. 1; 2015 No 1; F2020L00826; | ||
| rs F2021L00771; am F2022L00815 | |||
| s 3.82 (prev s 3.81) | am 2009 No. 1 | ||
| rs F2021L00771 | |||
| s 3.82A (prev s 3.81A) | ad F2019L00938, am F2020L00826 | ||
| rs F2021L00771; am F2022L00815 | |||
| Division 3.3.9A (prev Division 3.9.9) | |||
| Division 3.3.9A heading | rs 2009 No. 1; F2021L00771 | ||
| s 3.83 (prev s 3.82) | rs 2009 No. 1; F2021L00771 | ||
| Subdivision 3.3.9A.1 | |||
| Subdivision 3.3.9A.1 | ad F2021L00771 | ||
| s 3.84 (prev s 3.83) | am 2009 No. 1; 2010 No. 1; 2011 No. 1; 2015 No 2 | ||
| rs F2021L00771 | |||
| s 3.85 | am F2020L00826 | ||
| rs F2021L00771 | |||
| Subdivision 3.3.9A.2 | |||
| Subdivision 3.3.9A.2 | ad F2021L00771 | ||
| s 3.85A | ad F2021L00771 | ||
| s 3.85B | ad F2021L00771 | ||
| Subdivision 3.3.9A.3 | |||
| Subdivision 3.3.9A.3 | ad F2021L00771 | ||
| s 3.85C | ad F2021L00771 | ||
| s 3.85D | ad F2021L00771 | ||
| Subdivision 3.3.9A.4 | |||
| Subdivision 3.3.9A.4 | ad F2021L00771 | ||
| s 3.85E | ad F2021L00771 | ||
| s 3.85F | ad F2021L00771 | ||
| Subdivision 3.3.9A.5 | |||
| Subdivision 3.3.9A.5 | ad F2021L00771 | ||
| s 3.85G | ad F2021L00771 | ||
| s 3.85H | ad F2021L00771 | ||
| Subdivision 3.3.9A.6 | |||
| Subdivision 3.3.9A.6 | ad F2021L00771 | ||
| s 3.85K | ad F2021L00771 | ||
| s 3.85L | ad F2021L00771 | ||
| Subdivision 3.3.9A.7 | |||
| Subdivision 3.3.9A.7 | ad F2021L00771 | ||
| s 3.85M | ad F2021L00771 | ||
| s 3.85N | ad F2021L00771 | ||
| Subdivision 3.3.9A.8 | |||
| Subdivision 3.3.9A.8 | ad F2021L00771 | ||
| s 3.85O | ad F2021L00771 | ||
| s 3.85P | ad F2021L00771 | ||
| Subdivision 3.3.9A.9 | |||
| Subdivision 3.3.9A.9 | ad F2021L00771 | ||
| s 3.85R | ad F2021L00771 | ||
| s 3.85S | ad F2021L00771 | ||
| Subdivision 3.3.9A.10 | |||
| Subdivision 3.3.9A.10 | ad F2021L00771 | ||
| s 3.85T | ad F2021L00771 | ||
| s 3.86 (prev s 3.84) | rs 2010 No. 1; | ||
| am 2012 No. 1; rs F2021L00771 | |||
| s 3.87 (prev s 3.86) | rs 2011 No. 1; | ||
| am 2015 No 1; 2015 No 2; rs F2021L00771 | |||
| s 3.87A (prev s 3.86A) | ad 2015 No 2 | ||
| rs F2021L00771 | |||
| s 3.88 (prev s 3.87) | am 2011 No. 1 | ||
| rs F2021L00771 | |||
| Division 3.3.9B | |||
| s 3.88A | ad F2021L00771 | ||
| Subdivision 3.3.9B.1 | |||
| s 3.88B | ad F2021L00771 | ||
| s 3.88C | ad F2021L00771 | ||
| Subdivision 3.3.9B.2 | |||
| s 3.88D | ad F2021L00771 | ||
| Division 3.3.9C | |||
| s 3.88E | ad F2021L00771 | ||
| Subdivision 3.3.9C.1 | |||
| s 3.88F | ad F2021L00771 | ||
| s 3.88G | ad F2021L00771 | ||
| Subdivision 3.3.9B.2 | |||
| s 3.88H | ad F2021L00771 | ||
| Division 3.3.9D | |||
| s 3.88I | ad F2021L00771 | ||
| s 3.88J | ad F2021L00771 | ||
| Division 3.3.9E | |||
| s 3.88K | ad F2021L00771 | ||
| Subdivision 3.3.9E.1 | |||
| s 3.88L | ad F2021L00771 | ||
| s 3.88M | ad F2021L00771 | ||
| Subdivision 3.3.9E.2 | |||
| s 3.88N | ad F2021L00771 | ||
| Division 3.3.9F | |||
| s 3.88O | ad F2021L00771 | ||
| Subdivision 3.3.9F.1 | |||
| s 3.88P | ad F2021L00771 | ||
| s 3.88Q | ad F2021L00771 | ||
| Subdivision 3.3.9F.2 | |||
| s 3.88R | ad F2021L00771 | ||
| Division 3.3.9G | |||
| s 3.88S | ad F2021L00771 | ||
| s 3.88T | ad F2021L00771 | ||
| Part 3.4 | |||
| Part 3.4 heading | am F2021L00771 | ||
| Part 3.4 | ad 2010 No. 1 | ||
| Division 3.4.1 | |||
| s 3.88 | ad 2010 No. 1; am F2021L00771 | ||
| Division 3.4.2 | |||
| Division 3.4.2 heading | rs 2016 No 1 | ||
| Subdivision 3.4.2.1 | |||
| s 3.89 | ad 2010 No. 1 | ||
| am 2016 No 1; rs F2021L00771 | |||
| s 3.90 | ad 2010 No. 1 | ||
| am 2016 No 1; rs F2021L00771 | |||
| Subdivision 3.4.2.2 | |||
| Subdivision 3.4.2.2 heading (first occurring) | rs 2016 No 1 | ||
| s 3.91 | ad 2010 No. 1 | ||
| rs 2016 No 1 | |||
| am F2018L00923; F2020L00826; rs F2021L00771 | |||
| Subdivision 3.4.2.3 | |||
| Subdivision 3.4.2.2 heading (second occurring) | rep 2016 No 1 | ||
| Subdivision 3.4.2.3 heading | ad 2016 No 1; rs F2021L00771 | ||
| s 3.92 | ad 2010 No. 1 | ||
| rs 2016 No 1 | |||
| am F2018L00923; F2020L00826; rs F2021L00771 | |||
| Division 3.4.3 | |||
| Division 3.4.3 | ad 2016 No 1; rs F2021L00771 | ||
| Subdivision 3.4.3.1 | |||
| s 3.93 | ad 2016 No 1; rs F2021L00771 | ||
| s 3.94 | ad 2016 No 1; rs F2021L00771 | ||
| Subdivision 3.4.3.2 | |||
| s 3.95 | ad 2016 No 1; rs F2021L00771 | ||
| Subdivision 3.4.3.3 | |||
| s 3.96 | ad 2016 No 1; rs F2021L00771 | ||
| s 3.97 | ad 2016 No 1; rs F2021L00771 | ||
| Division 3.4.4 | |||
| Division 3.4.4 | ad 2016 No 1 | ||
| Subdivision 3.4.4.1 | |||
| s 3.98 | ad 2016 No 1 | ||
| s 3.99 | ad 2016 No 1 | ||
| Subdivision 3.4.4.2 | |||
| s 3.100 | ad 2016 No 1 | ||
| Chapter 4 | |||
| Chapter 4 heading | rs 2009 No. 1 | ||
| Part 4.1 | |||
| s 4.1 | am 2009 No. 1; 2011 No. 1; 2012 No. 1; am F2021L00771 | ||
| Part 4.2 | |||
| Division 4.2.1 | |||
| s 4.2 | am 2009 No. 1 | ||
| s 4.3 | am 2009 No. 1 | ||
| s 4.5 | am 2009 No. 1 | ||
| rs 2010 No. 1 | |||
| s 4.7 | am 2010 No. 1 | ||
| s 4.8 | am 2010 No. 1 | ||
| s 4.10 | am 2010 No. 1 | ||
| Division 4.2.2 | |||
| s 4.11 | am 2009 No. 1 | ||
| s 4.12 | am 2009 No. 1 | ||
| s 4.13 | rs 2011 No. 1 | ||
| s 4.14 | am 2010 No. 1 | ||
| rs 2011 No. 1 | |||
| s 4.15 | am 2011 No. 1 | ||
| s 4.16 | am 2010 No. 1 | ||
| s 4.17 | am 2010 No. 1 | ||
| Division 4.2.3 | |||
| Division 4.2.3 heading | rs 2009 No. 1 | ||
| s 4.20 | rs 2009 No. 1; 2010 No. 1 | ||
| am 2011 No. 1; 2012 No. 1 |
| s 4.21 | am 2009 No. 1; 2012 No. 1 | ||
| s 4.22 | am 2009 No. 1 (Sch 1 item 92 md not incorp); 2010 No. 1 | ||
| s 4.22A | ad 2012 No. 1 | ||
| s 4.23 | am 2009 No. 1; 2010 No. 1 | ||
| s 4.23A | ad 2012 No. 1 | ||
| s 4.23B | ad 2012 No. 1 | ||
| s 4.23C | ad 2012 No. 1 | ||
| s 4.25 | am 2010 No. 1 | ||
| Division 4.2.4 | |||
| s 4.26 | am 2009 No. 1 | ||
| rs 2010 No. 1 | |||
| Subdivision 4.2.4.1 | |||
| s 4.28 | am 2009 No. 1; 2010 No. 1 | ||
| Subdivision 4.2.4.2 | |||
| s 4.30 | am 2009 No. 1; 2010 No. 1 | ||
| s 4.31 | am 2009 No. 1 | ||
| rs 2010 No. 1 | |||
| am 2011 No. 1; 2012 No. 1 | |||
| s 4.32 | rs 2010 No. 1 | ||
| am 2011 No. 1; 2012 No. 1 | |||
| s 4.33 | rs 2010 No. 1 | ||
| am 2011 No. 1 | |||
| Division 4.2.5 | |||
| s 4.34 | am 2012 No. 1 | ||
| s 4.35 | am 2009 No. 1 | ||
| s 4.38 | am 2009 No. 1 | ||
| Part 4.3 | |||
| Division 4.3.1 | |||
| s 4.40 | am 2009 No. 1 | ||
| s 4.41 | am 2009 No. 1 | ||
| s 4.42 | am 2009 No. 1; 2014 No. 1 | ||
| s 4.43 | rs 2010 No. 1 | ||
| am 2012 No. 1; 2014 No. 1 | |||
| s 4.44 | rs 2010 No. 1 | ||
| Division 4.3.2 | |||
| s 4.45 | am 2009 No. 1 | ||
| s 4.46 | am 2009 No. 1 | ||
| s 4.47 | am 2015 No 1; F2020L00826 | ||
| Division 4.3.3 | |||
| s 4.49 | am 2009 No. 1 | ||
| s 4.50 | am 2009 No. 1 | ||
| Division 4.3.4 | |||
| s 4.51 | am 2009 No. 1 | ||
| s 4.52 | am 2009 No. 1 | ||
| Division 4.3.5 | |||
| Division 4.3.5 heading | rs 2009 No. 1; 2011 No. 1 | ||
| s 4.53 | rs 2009 No. 1; 2011 No. 1 | ||
| s 4.54 | am 2009 No. 1 | ||
| s 4.55 | am 2009 No. 1 | ||
| rs 2011 No. 1 | |||
| am 2012 No. 1 | |||
| s 4.56 | am 2009 No. 1 | ||
| rs 2011 No. 1 | |||
| s 4.57 | am 2009 No. 1 | ||
| rs 2011 No. 1 | |||
| Division 4.3.6 | |||
| Division 4.3.6 | rep 2009 No. 1 | ||
| ad 2012 No. 1 | |||
| s 4.58 | rep 2009 No. 1 | ||
| ad 2012 No. 1 | |||
| s 4.59 | rep 2009 No. 1 | ||
| ad 2012 No. 1 | |||
| Division 4.3.7 | |||
| s 4.60 | rep 2009 No. 1; ad F2021L00771 | ||
| s 4.61 | rep 2009 No. 1; ad F2021L00771 | ||
| s 4.62 | rep 2009 No. 1; ad F2021L00771 | ||
| s 4.62A | ad F2021L00771 | ||
| s 4.62B | ad F2021L00771 | ||
| Part 4.4 | |||
| Division 4.4.1 | |||
| Division 4.4.1 heading | rs 2009 No. 1 | ||
| s 4.63 | rs 2009 No. 1; 2011 No. 1 | ||
| s 4.64 | am 2009 No. 1 | ||
| s 4.65 | am 2009 No. 1 | ||
| s 4.66 | am 2009 No. 1; 2011 No. 1; 2012 No. 1; 2016 No 1; F2018L00923 | ||
| s 4.67 | am 2009 No. 1; 2010 No. 1; 2011 No. 1 | ||
| s 4.68 | am 2009 No. 1; 2010 No. 1 | ||
| Division 4.4.2 | |||
| Heading to Div. 4.4.2 of Part 4.4 | rs 2009 No. 1 | ||
| s 4.69 | am 2009 No. 1 | ||
| rs 2010 No. 1 | |||
| s 4.70 | am 2009 No. 1; 2010 No. 1 | ||
| s 4.71 | am 2009 No. 1 | ||
| rs 2011 No. 1 | |||
| ed C7 | |||
| s 4.72 | rs 2011 No. 1 | ||
| s 4.73 | rs 2011 No. 1 | ||
| Division 4.4.3 | |||
| Division 4.4.3 heading | rs 2009 No. 1 | ||
| s 4.74 | am 2009 No. 1 | ||
| Subdivision 4.4.3.1 | |||
| Subdivision 4.4.3.1 heading | rs 2010 No. 1 | ||
| s 4.75 | am 2009 No. 1; 2010 No. 1 | ||
| s 4.76 | am 2009 No. 1; 2010 No. 1 | ||
| s 4.77 | am 2009 No. 1; 2010 No. 1 | ||
| s 4.78 | am 2010 No. 1 | ||
| Subdivision 4.4.3.2 | |||
| s 4.79 | am 2009 No. 1 | ||
| s 4.80 | am 2009 No. 1 | ||
| Division 4.4.4 | |||
| Division 4.4.4 heading | rs 2009 No. 1 | ||
| s 4.83 | am 2009 No. 1 | ||
| Subdivision 4.4.4.1 | |||
| s 4.84 | am 2009 No. 1 | ||
| s 4.85 | am 2015 No 1; F2020L00826 | ||
| Subdivision 4.4.4.2 | |||
| s 4.88 | am 2009 No. 1 | ||
| s 4.89 | am 2015 No 1; F2020L00826 | ||
| Division 4.4.5 | |||
| Division 4.4.5 heading | rs 2009 No. 1 | ||
| s 4.92 | rs 2009 No. 1; 2010 No. 1 | ||
| s 4.93 | am 2009 No. 1 | ||
| s 4.94 | am 2009 No. 1 | ||
| rs 2011 No. 1 | |||
| ed C7 | |||
| s 4.95 | rs 2011 No. 1 | ||
| s 4.96 | rs 2011 No. 1 | ||
| Part 4.5 | |||
| s 4.97 | am 2009 No. 1 | ||
| s 4.98 | am 2009 No. 1 | ||
| s 4.99 | am 2013 No. 1 | ||
| s 4.100 | am 2012 No. 1; 2014 No. 1; 2016 No 1 | ||
| s 4.102 | am 2009 No. 1; 2012 No. 1 | ||
| s 4.103 | ad 2009 No. 1; rs F2022L00815 | ||
| s 4.104 | ad 2009 No. 1; rs F2022L00815 | ||
| Chapter 5 | |||
| Chapter 5 heading | rs 2009 No. 1 | ||
| Part 5.1 | |||
| s 5.1 | rs 2009 No. 1 | ||
| Part 5.2 | |||
| Division 5.2 | |||
| s 5.2 | rs 2009 No. 1 | ||
| am 2012 No. 1 | |||
| rs 2015 No 2 | |||
| s 5.3 | am 2009 No. 1; 2013 No. 1; 2015 No 2; 2016 No 1 | ||
| ed C7; am F2022L00815 | |||
| Division 5.2.2 | |||
| s 5.4 | am 2009 No. 1; 2011 No. 1; 2012 No. 1; 2014 No. 1; 2015 No 1; F2020L00826 | ||
| s 5.4A | ad 2012 No. 1 | ||
| s 5.4B | ad 2012 No. 1 | ||
| am 2015 No 1; F2020L00826 | |||
| s 5.4C | ad 2012 No. 1 | ||
| s 5.4D | ad 2012 No. 1 | ||
| am 2015 No 1; F2020L00826 | |||
| s 5.5 | am 2009 No. 1 | ||
| s 5.8 | am 2014 No. 1 | ||
| s 5.9 | am 2009 No. 1; 2012 No. 1 | ||
| rs 2013 No. 1 | |||
| am 2014 No. 1 | |||
| s 5.10 | am 2009 No. 1; 2012 No. 1; 2013 No. 1; 2014 No. 1 | ||
| s 5.10A | ad 2013 No. 1 | ||
| am 2014 No. 1 | |||
| s 5.11 | am 2009 No. 1; 2013 No. 1; 2014 No. 1; 2016 No 1 | ||
| s 5.11A | ad 2009 No. 1 | ||
| am 2014 No. 1 | |||
| s 5.12 | am 2012 No. 1; 2013 No. 1 | ||
| s 5.13 | am 2009 No. 1; 2012 No. 1; 2014 No. 1; 2015 No 1 | ||
| s 5.14 | rs 2012 No. 1 | ||
| am 2013 No. 1 | |||
| s 5.14A | ad 2011 No. 1 | ||
| am 2012 No. 1; 2013 No. 1 | |||
| s 5.14B | ad 2012 No. 1 | ||
| s 5.14C | ad 2012 No. 1 | ||
| s 5.14D | ad 2012 No. 1 | ||
| Division 5.2.3 | |||
| Subdivision 5.2.3.1 | |||
| s 5.15 | am 2009 No. 1 | ||
| rs 2012 No. 1 | |||
| am 2013 No. 1; 2015 No 1; F2020L00826 | |||
| s 5.15A | ad 2012 No. 1 | ||
| am 2013 No. 1; 2015 No 1; F2020L00826 | |||
| s 5.15B | ad 2012 No. 1 | ||
| am 2013 No. 1 | |||
| s 5.15C | ad 2013 No. 1 | ||
| Subdivision 5.2.3.2 | |||
| Subdivision 5.2.3.2 | rs 2009 No. 1 | ||
| s 5.16 | rs 2009 No. 1 | ||
| am 2012 No. 1 | |||
| s 5.17 | rs 2009 No. 1; 2012 No. 1; am F2021L00771 | ||
| s 5.17AA | ad 2012 No. 1 | ||
| am 2015 No 1; 2016 No 1 | |||
| s 5.17A | ad 2009 No. 1 | ||
| rs 2012 No. 1 | |||
| am 2013 No. 1 | |||
| s 5.17B | ad 2009 No. 1 | ||
| am 2012 No. 1; am F2021L00771 | |||
| s 5.17C | ad 2009 No. 1 | ||
| s 5.17D | ad 2009 No. 1 | ||
| am 2012 No. 1 | |||
| s 5.17E | ad 2009 No. 1 | ||
| s 5.17F | ad 2009 No. 1 | ||
| am 2012 No. 1 | |||
| s 5.17G | ad 2009 No. 1 | ||
| am 2012 No. 1 | |||
| s 5.17H | ad 2009 No. 1 | ||
| s 5.17I | ad 2009 No. 1 | ||
| s 5.17J | ad 2009 No. 1 | ||
| s 5.17K | ad 2009 No. 1 | ||
| s 5.17L | ad 2009 No. 1 | ||
| am 2011 No. 1 | |||
| rs 2012 No. 1 | |||
| am 2015 No 1; 2016 No 1 | |||
| Division 5.2.4 | |||
| s 5.18 | am 2009 No. 1; 2013 No. 1 | ||
| Division 5.2.5 | |||
| s 5.19 | am 2012 No. 1 | ||
| Division 5.2.6 | |||
| s 5.22 | rs 2013 No. 1 | ||
| am 2015 No 1; 2015 No 2; F2020L00826 | |||
| s 5.22AA | ad 2013 No. 1 | ||
| am 2015 No 2 | |||
| Division 5.2.7 | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22A | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22B | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| am F2020L00826 | |||
| s 5.22C | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22D | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22E | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22F | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22G | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22H | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22I | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22J | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22K | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| s 5.22L | ad 2012 No. 1 | ||
| rep 2015 No 1 | |||
| Division 5.2.7 | |||
| Division 5.2.7 | ad 2016, No 1 | ||
| s 5.22A | ad 2016 No 1 | ||
| s 5.22B | ad 2016 No 1 | ||
| s 5.22C | ad 2016 No 1 | ||
| s 5.22D | ad 2016 No 1 | ||
| s 5.22E | ad 2016 No 1 | ||
| s 5.22F | ad 2016 No 1 | ||
| s 5.22G | ad 2016 No 1 | ||
| s 5.22H | ad 2016 No 1 | ||
| s 5.22J | ad 2016 No 1 | ||
| s 5.22K | ad 2016 No 1 | ||
| s 5.22L | ad 2016 No 1 | ||
| s 5.22M | ad 2016 No 1 | ||
| Part 5.3 | |||
| Part 5.3 heading | rs 2009 No. 1 | ||
| Division 5.3.1 | |||
| s 5.23 | rs 2009 No. 1 | ||
| am F2018L00923 | |||
| s 5.24 | am 2009 No. 1 | ||
| Division 5.3.2 | |||
| s 5.25 | am 2009 No. 1; 2010 No. 1; 2011 No. 1; 2015 No 1; F2020L00826 | ||
| Division 5.3.3 | |||
| s 5.26 | am 2009 No. 1 | ||
| rs 2014 No. 1 | |||
| am 2015 No 1; F2020L00826 | |||
| s 5.26A | ad 2014 No. 1 | ||
| Division 5.3.5 | |||
| s 5.31 | rs 2011 No. 1 | ||
| am 2012 No. 1; 2015 No 1; F2020L00826 | |||
| Division 5.3.6 | |||
| s 5.32 | am 2012 No. 1 | ||
| Division 5.3.8 | |||
| s 5.37 | am 2012 No. 1 | ||
| Part 5.4 | |||
| Part 5.4 heading | rs 2009 No. 1 | ||
| Division 5.4.1 | |||
| s 5.40 | rs 2009 No. 1 | ||
| am 2011 No. 1; 2013 No. 1; 2014 No. 1 | |||
| s 5.41 | am 2009 No. 1 | ||
| Division 5.4.2 | |||
| s 5.42 | am 2009 No. 1; 2011 No. 1; 2013 No. 1; 2014 No. 1; 2015 No 1; F2020L00826 | ||
| Division 5.4.3 | |||
| s 5.43 | am 2009 No. 1; 2010 No. 1; 2014 No. 1 | ||
| Division 5.4.5 | |||
| s 5.48 | am 2012 No. 1 | ||
| Part 5.5 | |||
| Part 5.5 heading | rs 2009 No. 1 | ||
| s 5.51 | am 2009 No. 1; 2014 No. 1 | ||
| s 5.52 | am 2010 No. 1; 2011 No. 1 | ||
| s 5.53 | am 2009 No. 1 | ||
| Chapter 6 | |||
| Part 6.1 | |||
| s 6.1 | am 2013 No 1 | ||
| s 6.2 | am 2009 No. 1; 2010 No. 1; 2014 No. 1; F2017L00829 | ||
| s 6.3 | am F2017L00829 | ||
| Part 6.2 | |||
| s 6.4 | am 2014 No. 1; 2016 No 1 | ||
| s 6.5 | am 2009 No. 1; 2013 No. 1; F2017L00829 | ||
| Chapter 7 | |||
| s 7.1 | am 2009 No. 1 | ||
| rs 2013 No. 1 | |||
| am F2017L00829 | |||
| s 7.2 | am 2009 No 1; 2015 No 2; F2017L00829 | ||
| s 7.3 | ad 2009 No. 1 | ||
| am F2017L00829 | |||
| Chapter 8 | |||
| Chapter 8 | rs 2009 No. 1 | ||
| Part 8.1 | |||
| s 8.1 | rs 2009 No. 1 | ||
| am 2016 No 1 | |||
| Part 8.2 | |||
| s 8.2 | rs 2009 No. 1 | ||
| s 8.3 | rs 2009 No. 1 | ||
| am 2016 No 1 | |||
| Part 8.3 | |||
| s 8.4 | rs 2009 No. 1 | ||
| am 2016 No 1 | |||
| s 8.5 | rs 2009 No. 1 | ||
| am 2016 No 1 | |||
| s 8.6 | rs 2009 No. 1 | ||
| am 2010 No. 1; 2011 No. 1; 2013 No. 1; F2021L00771; F2022L00815 | |||
| s 8.7 | rs 2009 No. 1 | ||
| am 2010 No. 1; 2011 No. 1 | |||
| s 8.8 | rs 2009 No. 1 | ||
| am 2011 No. 1; am F2021L00771 | |||
| s 8.9 | rs 2009 No. 1 | ||
| am 2011 No. 1 | |||
| s 8.10 | ad 2009 No. 1 | ||
| s 8.11 | ad 2009 No. 1 | ||
| am 2016 No 1 | |||
| s 8.12 | ad 2009 No. 1 | ||
| am 2010 No. 1 | |||
| rep 2016 No 1 | |||
| s 8.13 | ad 2009 No. 1 | ||
| am 2010 No. 1 | |||
| rep 2016 No 1 | |||
| Part 8.4 | |||
| s 8.14 | ad 2009 No. 1 | ||
| am 2016 No 1 | |||
| s 8.15 | ad 2009 No. 1 | ||
| am 2012 No. 1 | |||
| Chapter 9 | |||
| Chapter 9 | ad 2014 No 1 | ||
| rs 2016 No 1 | |||
| am 2015 No 2 | |||
| s 9.1 | ad 2014 No 1 | ||
| rep 1 Nov 2014 (s 9.1(2)) | |||
| ad 2016 No 1 | |||
| rep 1 Nov 2016 (s 9.1(2)) | |||
| s 9.2 | ad 2014 No 1 | ||
| rep 2016 No 1 | |||
| s 9.3 | ad 2015 No 2 | ||
| rep 1 Nov 2015 (s 9.3(2)) | |||
| s 9.4 | ad 2015 No 2 | ||
| rep 1 Nov 2015 (s 9.4(2)) | |||
| s 9.5 | ad 2015 No 2 | ||
| rep 1 Nov 2016 (s 9.5(2)) | |||
| s 9.10 | ad F2017L00829 | ||
| s 9.11 | ad F2018L00923 | ||
| s 9.12 | ad F2019L00938 | ||
| s 9.13 | ad F2020L00826 | ||
| s 9.14 | ad F2021L00771 | ||
| s 9.15 | ad F2022L00815 | ||
| Schedule 1 | |||
| Schedule 1 | am 2009 No. 1; 2010 No. 1; 2011 No. 1; 2012 No. 1; 2013 No. 1; 2014 No. 1; 2015 No 1; 2015 No 2; 2016 No 1; F2017L00829; F2018L00923; F2019L00938; F2020L00826; F2021L00771; F2022L00815 | ||
| Schedule 2 | |||
| Schedule 2 | am 2011 No. 1; 2013 No. 1; F2022L00815 | ||
| Schedule 3 | |||
| Schedule 3 heading | rs 2010 No. 1 | ||
| Schedule 3 | am 2009 No. 1; 2010 No. 1; 2011 No. 1; 2012 No. 1; 2013 No. 1; 2015 No 1; F2021L00771; F2022L00815 | ||
| Schedule 4 | |||
| Schedule 4 | ad F2021L00771 |
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