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Q-2, r. 35.5 - Regulation respecting landfill methane reclamation and destruction projects eligible for the issuance of offset credits
Section 20
Disposition versions
20. For the purposes of the quantification of the GHG emission reductions attributable to a project, the promoter must calculate the GHG emissions in the baseline scenario using Equations 2 to 8:
Equation 2
BE = CH4R-D × GWPCH4 × (1 - OX)
Where:
BE = GHG emissions in the baseline scenario, in metric tonnes CO2 equivalent;
CH4R-D = Total quantity of CH4 reclaimed or destroyed by all reclamation or destruction devices, calculated using Equation 4, in metric tonnes of CH4;
GWPCH4 = Global warming potential of CH4, taken from Schedule A.1 to the Regulation respecting mandatory reporting of certain emissions of contaminants into the atmosphere (chapter Q-2, r. 15);
OX = Factor for the oxidation of CH4 by soil bacteria, using the value established for each of the cases provided for in subparagraphs 1, 2 and 3 below.
The factor for the oxidation of CH4 by soil bacteria is established as follows:
(1) for closed landfill sites with a geomembrane covering the entire area of the landfill in accordance with the Regulation respecting the landfilling and incineration of residual materials (chapter Q-2, r. 19), the promoter must use a CH4 oxidation rate of zero (0%);
(2) for operating landfills, where part of the landfill is filled and covered by a geomembrane meeting the requirements of the Regulation respecting the landfilling and incineration of residual materials, the promoter must use a CH4 oxidation rate of zero (0%) for the zone covered by a geomembrane and a CH4 oxidation rate of 10% for the zone not covered by a geomembrane, and must pro-rate the CH4 oxidation factor based on the zones which are covered and uncovered by a geomembrane using Equation 3;
(3) for all other landfill sites, the promoter must use a CH4 oxidation factor of 10%.
Equation 3
| OX | = | (0% × ACZ) + (10% × ANCZ) |
| SCZ + ANCZ |
Where:
OX = Factor for the oxidation of CH4 by soil bacteria for the case provided for in subparagraph 2;
ACZ = Area of the landfill site zone that is filled and covered by a geomembrane, in square metres;
ANCZ = Area of the landfill site zone that is operating and not covered by a geomembrane under final cover at the start of the reporting period, in square metres.
Equation 4
Where:
CH4R-D = Total quantity of CH4 reclaimed or destroyed by all reclamation or destruction devices, in metric tonnes of CH4;
i = Reclamation device or destruction device;
n = Number of reclamation or destruction devices;
CH4R-D,i = Quantity of CH4 reclaimed or destroyed by reclamation or destruction device i, calculated using Equation 5, in cubic metres of CH4 at standard conditions;
0.668 = Density of CH4, in kilograms per cubic metre at standard conditions;
0.001 = Conversion factor, kilograms to metric tonnes.
Equation 5
CH4R-D,i = Qi × DEi
Where:
CH4R-D,i = Quantity of CH4 reclaimed or destroyed by reclamation or destruction device i, in cubic metres of CH4 at standard conditions;
Qi = Quantity of CH4 sent to reclamation or destruction device i, calculated using Equation 6, in cubic metres of CH4 at standard conditions;
DEi = Efficiency of reclamation or destruction device i, determined in Appendix A or calculated using Equation 7 for destruction by biological oxidation;
i = Reclamation or destruction device.
Equation 6
Where:
Qi = Quantity of CH4 sent to reclamation or destruction device i, in cubic metres of CH4 at standard conditions;
t = Time interval shown in the table of monitoring parameters in Appendix D for which CH4 flow and content measurements from the landfill gas are aggregated;
n = Number of time intervals;
VLGi,t = Corrected volume of landfill gas sent to reclamation or destruction device i during time interval t, measured using a flow meter in cubic metres at standard conditions or calculated in accordance with section 21;
CCH4,t = Average concentration of CH4 in the landfill gas during time interval t, measured using a continuous CH4 analyzer, in cubic metres of CH4 per cubic metre of landfill gas.
Equation 7
| DEi | = | (COE-CH4 – COO-CH4 |
| COE-CH4 |
Where:
DEi = Efficiency of biological oxidation destruction device i, in cubic metres of CH4 per cubic metre of landfill gas;
CoE-CH4 = Average CH4 concentration of the gas entering the biological oxidation destruction device, measured using a continuous CH4 analyzer, in cubic metres of CH4 per cubic metre of landfill gas;
COO–CH4 = Average CH4 concentration of the gas at the outlet of the biological oxidation destruction device, measured using a continuous CH4 analyzer, in cubic metres of CH4 per cubic metre of landfill gas.
In force: 2021-07-15
20. For the purposes of the quantification of the GHG emission reductions attributable to a project, the promoter must calculate the GHG emissions in the baseline scenario using Equations 2 to 8:
Equation 2
BE = CH4R-D × GWPCH4 × (1 - OX)
Where:
BE = GHG emissions in the baseline scenario, in metric tonnes CO2 equivalent;
CH4R-D = Total quantity of CH4 reclaimed or destroyed by all reclamation or destruction devices, calculated using Equation 4, in metric tonnes of CH4;
GWPCH4 = Global warming potential of CH4, taken from Schedule A.1 to the Regulation respecting mandatory reporting of certain emissions of contaminants into the atmosphere (chapter Q-2, r. 15);
OX = Factor for the oxidation of CH4 by soil bacteria, using the value established for each of the cases provided for in subparagraphs 1, 2 and 3 below.
The factor for the oxidation of CH4 by soil bacteria is established as follows:
(1) for closed landfill sites with a geomembrane covering the entire area of the landfill in accordance with the Regulation respecting the landfilling and incineration of residual materials (chapter Q-2, r. 19), the promoter must use a CH4 oxidation rate of zero (0%);
(2) for operating landfills, where part of the landfill is filled and covered by a geomembrane meeting the requirements of the Regulation respecting the landfilling and incineration of residual materials, the promoter must use a CH4 oxidation rate of zero (0%) for the zone covered by a geomembrane and a CH4 oxidation rate of 10% for the zone not covered by a geomembrane, and must pro-rate the CH4 oxidation factor based on the zones which are covered and uncovered by a geomembrane using Equation 3;
(3) for all other landfill sites, the promoter must use a CH4 oxidation factor of 10%.
Equation 3
| OX | = | (0% × ACZ) + (10% × ANCZ) |
| SCZ + ANCZ |
Where:
OX = Factor for the oxidation of CH4 by soil bacteria for the case provided for in subparagraph 2;
ACZ = Area of the landfill site zone that is filled and covered by a geomembrane, in square metres;
ANCZ = Area of the landfill site zone that is operating and not covered by a geomembrane under final cover at the start of the reporting period, in square metres.
Equation 4
Where:
CH4R-D = Total quantity of CH4 reclaimed or destroyed by all reclamation or destruction devices, in metric tonnes of CH4;
i = Reclamation device or destruction device;
n = Number of reclamation or destruction devices;
CH4R-D,i = Quantity of CH4 reclaimed or destroyed by reclamation or destruction device i, calculated using Equation 5, in cubic metres of CH4 at standard conditions;
0.668 = Density of CH4, in kilograms per cubic metre at standard conditions;
0.001 = Conversion factor, kilograms to metric tonnes.
Equation 5
CH4R-D,i = Qi × DEi
Where:
CH4R-D,i = Quantity of CH4 reclaimed or destroyed by reclamation or destruction device i, in cubic metres of CH4 at standard conditions;
Qi = Quantity of CH4 sent to reclamation or destruction device i, calculated using Equation 6, in cubic metres of CH4 at standard conditions;
DEi = Efficiency of reclamation or destruction device i, determined in Appendix A or calculated using Equation 7 for destruction by biological oxidation;
i = Reclamation or destruction device.
Equation 6
Where:
Qi = Quantity of CH4 sent to reclamation or destruction device i, in cubic metres of CH4 at standard conditions;
t = Time interval shown in the table of monitoring parameters in Appendix D for which CH4 flow and content measurements from the landfill gas are aggregated;
n = Number of time intervals;
VLGi,t = Corrected volume of landfill gas sent to reclamation or destruction device i during time interval t, measured using a flow meter in cubic metres at standard conditions or calculated in accordance with section 21;
CCH4,t = Average concentration of CH4 in the landfill gas during time interval t, measured using a continuous CH4 analyzer, in cubic metres of CH4 per cubic metre of landfill gas.
Equation 7
| DEi | = | (COE-CH4 – COO-CH4 |
| COE-CH4 |
Where:
DEi = Efficiency of biological oxidation destruction device i, in cubic metres of CH4 per cubic metre of landfill gas;
CoE-CH4 = Average CH4 concentration of the gas entering the biological oxidation destruction device, measured using a continuous CH4 analyzer, in cubic metres of CH4 per cubic metre of landfill gas;
COO–CH4 = Average CH4 concentration of the gas at the outlet of the biological oxidation destruction device, measured using a continuous CH4 analyzer, in cubic metres of CH4 per cubic metre of landfill gas.
