New Jersey Administrative Code
Title 7 - ENVIRONMENTAL PROTECTION
Chapter 27C - CO[2] BUDGET TRADING PROGRAM
Subchapter 10 - CO[2] EMISSIONS OFFSET PROJECTS
Section 7:27C-10.7 - CO[2] emissions offset project standards-avoided methane emissions from agricultural manure management operations
Current through Register Vol. 56, No. 18, September 16, 2024
(a) To qualify for the award of CO[2] offset allowances, in addition to satisfying the other applicable requirements of this subchapter, an offset project that reduces CO-equivalent emissions by capturing and destroying methane from animal manure and organic food waste using anaerobic digesters shall meet the requirements of (b) through (g) below.
(b) An offset project that captures and destroys methane from animal manure and organic food waste using anaerobic digesters shall:
(c) The provisions of N.J.A.C. 7:27C-10.3(d)2 and 3 do not apply to an agricultural manure management offset project if:
MP (percent) = MG[AD]/MG[STATE]
where:
MG[AD] = Average annual manure generation for the number of dairy cows and swine serving all anaerobic digester projects in the applicable state at the time of submission of a consistency application pursuant to N.J.A.C. 7:27C-10.4; and
MG[STATE] = average annual manure production of all dairy cows and swine in the state at the time of submission of a consistency application pursuant to N.J.A.C. 7:27C-10.4; or
(d) The project sponsor shall provide a detailed narrative of the offset project actions to be taken, including documentation that the offset project meets the requirements of (b) above. The offset project narrative shall include:
(e) The emissions baseline shall represent the potential emissions of the methane that would have been produced in a baseline scenario under uncontrolled anaerobic storage conditions and released directly to the atmosphere in the absence of the offset project, and is calculated as follows:
Eb = (Vm x M)/2000 x GWP
where:
E[b] = Potential COe emissions due to calculated CH[4] production under site-specific anaerobic storage and weather conditions (tons);
V[m] = Volume of CHproduced each month from decomposition of volatile solids in a baseline uncontrolled anaerobic storage scenario under site-specific storage and weather conditions for the facility at which the manure or organic food waste is generated (ft<3>);
M = Mass of CH per cubic foot (0.04246 lb/ft<3> default value at one atmosphere and 20 degrees Celsius); and
GWP = Global warming potential of CH[4] (28);
VS[dec] = VS[avail] x f
where:
VS = volatile solids as determined from the equation:
VS = M[m] x TS[percent] x VS[percent]
where:
M[m] = mass of manure or organic food waste produced per month (kg);
TS[percent] = concentration (percent) of total solids in manure or organic food waste as determined through EPA 160.3 testing method (U.S.EPA Method Number 160.3, Methods for the Chemical Analysis of Water and Wastes (MCAWW) (EPA/600/4-79/020)), which is incorporated herein by reference, which is available at EPA's website at www.epa.gov; and
VS[percent] = concentration (percent) of volatile solids in total solids as determined through EPA 160.4 testing method (U.S.EPA Method Number 160.4, Methods for the Chemical Analysis of Water and Wastes (MCAWW) (EPA/600/4-79/020), which is incorporated herein by reference, and which is available at the EPA's website;
VS[avail] = volatile solids available for decomposition in manure or organic food waste storage each month as determined from the equation:
VS[avail] = VS + 1/2 VS-VS
where:
VS[p] = volatile solids present in manure or organic food waste storage at beginning of month (left over from previous month) (kg);
VS[in] = volatile solids added to manure or organic food waste storage during the course of the month (kg). The factor of 1/2 is multiplied by this number to represent the average mass of volatile solids available for decomposition for the entire duration of the month; and
VS[out] = volatile solids removed from the manure or organic food waste storage for land application or export (assumed value based on standard farm practice); and
f = van't Hoff-Arrhenius factor for the specific month as determined using the equation below. Using a base temperature of 30 degrees< >Celsius, the equation is as follows:
f = exp[[E(T[2] -T[1]] /[GC x T[1] x T[2]]]
where:
f = conversion efficiency of VS to CH[4] per month;
E = activation energy constant (15,175 cal/mol);
T[2] = average monthly ambient temperature for facility where manure or organic food waste is generated (converted from degrees< >Celsius to degrees< >Kelvin) as determined from the nearest National Weather Service certified weather station (if reported temperature in degrees< >Celsius > five degrees< >Celsius; if reported temperature in degrees Celsius < five degrees< >Celsius, then f = 0.104); and
T[1] = 303.15 (30 degrees Celsius converted to degrees Kelvin); and
GC = ideal gas constant (1.987 cal/K mol); and
V[m] = (VS[dec] x B[o]) x 35.3147
where:
V[m] = volume of CH[4] (ft<3>);
VS[dec]= volatile solids decomposed (kg); and
B[o] = manure or organic food waste type-specific maximum methane generation constant (m<3 >CH[4]/kg VS decomposed). For dairy cow manure, B[o] = 0.24 m<3> CH[4]/kg VS decomposed. The methane generation constant for other types of manure shall be those cited at EPA, Inventory of U.S. Greenhouse Gas Emissions and Sinks: 1990-2010, Annex 3, Table A-180 Methodology for Estimating CH[4] and N[2]O Emissions from Manure Management (EPA, February 2017), as supplemented or amended, and which is incorporated herein by reference and which is available from EPA at its website at www.epa.gov, unless the project sponsor proposes an alternate methane generation constant and that alternate is approved by the Department. If the project sponsor proposes to use a methane generation constant other than the ones found in the above-cited reference, the project sponsor shall provide justification and documentation to the Department.
(f) Emissions reductions shall be calculated as follows:
ERt = Eb-Ep
where:
ERt = CO[2]e emissions reductions due to project activities (tons);
Eb = Potential CO[2]e emissions due to calculated methane production under site-specific anaerobic storage and weather conditions (tons);
Ep = CO[2]e emissions due to project activities additional to baseline (tons), including, but not limited to, manure transportation, flaring, venting, and effluent management.
(g) Emissions reductions calculated pursuant to (f) above may not exceed the potential emissions of the anaerobic digester, as represented by the annual volume of methane produced by the anaerobic digester, as monitored pursuant to (i) below. CO[2] emissions due to transportation of manure and organic food waste from the site where the manure and organic food waste was generated to the anaerobic digester shall be subtracted from the emissions reduction calculated pursuant to (e)1, 2, and 3 above.
(h) Transport CO[2] emissions used in emissions reductions calculated pursuant to (f) above must be determined through one of the following methods:
(i) An offset project shall employ a system that provides metering of biogas volumetric flow rate and determination of methane concentration. Annual monitoring and verification reports shall include monthly biogas volumetric flow rate and methane concentration determination. Monitoring and verification shall also meet the following requirements:
Table 5 Monitoring Requirements
Table 5 Monitoring Requirements |
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(Parameter |
Measurement Unit |
Frequency of Sampling |
Sampling Method(s) |
Influent |flow (mass) into the [digester |
Kilograms (kg) per month (wet mass) |
Monthly total into the digester |
In descending order of preference: |
1. Recorded mass; |
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2. Digester influent pump flow; or |
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3. Livestock population and application of American Society of Agricultural and Biological Engineers (ASABE) standard (ASAE D384.2, Manure Production and Characteristics, March 2005, incorporated herein by reference, as supplemented or amended, and which is available from the American National Standards Institute (ANSI) at http://www.ansi.org. |
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Influent total solids concentration (TS) |
Percent (of (sample) |
Monthly, (depending upon recorded variations |
U.S. EPA Method Number 160.3, Methods for the Chemical Analysis of Water and Wastes (MCAWW) (EPA/600/4-79/020), which is incorporated by reference, and available at the EPA's website at www.epa.gov. |
Influent volatile solids (VS) concentration |
Percent (of TS) |
Monthly, depending upon recorded variations |
EPA Test Method Number 160.4, Methods for the Chemical Analysis of Water and Wastes (MCAWW) (EPA/600/4-79/020)), which is incorporated herein by reference, as supplemented or amended, and available at the EPA's website, www.epa.gov. |
Average monthly ambient temperature |
Temperature degrees Celsius |
Monthly (based on farm averages) |
Closest National Weather Service-certified weather station |
Volume of biogas produced by digester |
Standard cubic feet (scf) |
Continuous, totalized monthly |
Flow meter |
Methane composition of biogas produced by digester |
Percent (of sample) |
Quarterly |
Bag sampling and third-party laboratory analysis using applicable EPA test methods |