Risk Analysis and Technical Review Checklist for Preparing Biogas Project Plans


oEPA
EPA 430-B-20-004
Risk Analysis and Technical Review
Checklist for Preparing Biogas
Project Plans
This checklist (as well as the supporting information that follows) provides 35 "best practices" for
preparing and evaluating plans for designing and implementing anaerobic digester (AD)/biogas
projects. This resource is intended to help project developers, government agencies, financial
institutions, and other stakeholders assess the technical and financial feasibility of a proposed
AD/biogas project.
The checklist and supporting information should be used to determine if there is sufficient information
to assess the technical and financial feasibility of a given project. The checklist also provides project
developers with the tools needed to prepare a more complete plan. This checklist can further be
utilized by government agencies and financial institutions conducting a systematic review of
AD/biogas project proposals for project financing.
This checklist is intended to provide guidance and best practices only. The use of this checklist is not
a guarantee that loan support, funding, or other further resources will be awarded to a project plan or
proposal, or that a project plan that includes all of these elements will be implemented successfully.
RISK ANALYSIS AND TECHNICAL REVIEW CHECKLIST
Project Overview
1.	Does the plan include a project overview that provides a clear, easily ~ Yes ~ No
understood description of the proposed project?
2.	Does the plan include contact information for key project participants, ~ Yes ~ No
including the site owner, project owner, project developer, and project
operator?
3. Does the plan include a process flow diagram?	~ Yes ~ No

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Feedstock Supply and Characteristics
4. Does the plan adequately describe the source(s), volume, and
characteristics of the feedstocks for the anaerobic digester?
~ Yes ~ No
5. If feedstocks will be obtained from offsite locations, does the plan
present evidence of long-term supply agreements?
~ Yes ~ No ~ N/A
6. Does the plan explain how the daily volume of digester influent was
determined?
~ Yes ~ No
7. Is the stated digester influent total solids (TS) concentration consistent
with the proposed type of anaerobic digester?
~ Yes ~ No
Biogas Production Potential
8. Does the plan present calculations for expected volumetric rate of
biogas production for each given influent processed?
~ Yes ~ No
9. Does the plan demonstrate that the expected rate of biogas production
is consistent with the anticipated feedstock supply and estimated
volatile solids (VS) loading rate?
~ Yes ~ No
10. Are the values utilized to calculate the expected volumetric rate of
biogas production the same as peer-reviewed constants for each
given influent processed?
~ Yes ~ No
11. If the values utilized for calculating the volumetric rate of biogas
production are different from values referenced in peer-reviewed
resources, does the plan provide clearly documented methodology
and laboratory analyses which demonstrate that different values are
needed to calculate expected biogas production?
~ Yes ~ No ~ N/A
Biogas Use
12. Does the plan describe the expected use of the biogas produced by
the anaerobic digester?
~ Yes ~ No
13. Does the plan describe the assumptions used to determine biogas
energy content?
~ Yes ~ No
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Facilities and Equipment
14. Does the plan include a site plan and applicable engineering
drawings?
~ Yes ~ No
15. Does the plan include appropriate level of detail in the descriptions of
the project's physical components (e.g., structures and equipment)?
~ Yes ~ No
16. Can the individuals or firms who will be responsible for site
preparation, construction, and equipment installation demonstrate
appropriate qualifications and experience to successfully complete
assigned tasks?
~ Yes ~ No
17. Does the plan include a reasonable project construction schedule?
~ Yes ~ No
Project Cost Estimate
18. Does the project cost estimate include an adequate level of detail?
~ Yes ~ No
19. Does the plan demonstrate measures to control costs for goods and
services (e.g. through competitive fixed-price bidding)?
~ Yes ~ No
Financing Plan
20. Does the project-financing plan clearly identify all institutions
contributing grants, loan guarantees, or loans to the proposed project
and strategies to address any identified funding gaps?
~ Yes ~ No
21. Is there evidence of commitment from each prospective source of
funding?
~ Yes ~ No
Permits
22. Does the plan identify all permits needed to execute the plan?
~ Yes ~ No
23. Does the plan state (or provide evidence) that the project developer
has applied for the necessary permits?
~ Yes ~ No
24. Does the plan state (or provide evidence) that the project developer
has obtained the necessary permits?
~ Yes ~ No
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Operation, Maintenance, and Monitoring
25. Does the plan include a detailed plan for project operation and
maintenance?
~ Yes ~ No
26. Does the plan identify the individual or individuals responsible for
operation and maintenance?
~ Yes ~ No
27. Does the plan present the responsible individual(s)' qualifications for
operation and maintenance?
~ Yes ~ No
28. Does the plan provide a detailed safety plan for the operation of the
project?
~ Yes ~ No
29. Does the plan provide a process-monitoring plan?
~ Yes ~ No
30. Does the plan provide a digester effluent disposal plan, if applicable?
~ Yes ~ No ~ N/A
Financial Feasibility Assessment
31. Does the plan clearly describe how the expected income from biogas
was determined?
~ Yes ~ No
32. Does the plan provide sufficient justification for expected expenditures
over the project life imbedded in the pro forma income and expense
statement?
~ Yes ~ No
33. Is there documentation of the current on-site load or projected
demand, if the generated biogas or electricity will be used onsite?
~ Yes ~ No ~ N/A
34. If processed biogas or electricity generated using biogas will be sold to
a third party, does the plan provide copies of contractual agreements
or letters of intent?
~ Yes ~ No ~ N/A
35. If the project will claim income from other sources, such as certified
carbon emission credits or Renewable Electricity Certificates, does the
plan demonstrate the validity of these income streams (e.g., contracts,
letters of intent, etc.)?
~ Yes ~ No ~ N/A
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Supporting Information for Risk Analysis and
Technical Review for Biogas Project Plans
The Supporting Information in this section outlines details of the checklist for preparing
and evaluating plans for designing and implementing anaerobic digester (AD)/biogas
projects. Projects should address each of the topics listed below when assessing the
technical and financial feasibility of the proposed project.
SUPPORTING INFORMATION
Project Overview
1.	Does the plan include a project overview that provides a clear,
easily understood description of the proposed project?
The project plan should demonstrate the purpose and scope of the project. Specifically,
it should state, in general terms, what the plan proposes and how the project will be
developed and managed. The plan should also include a summary table of expected
project performance, including the following:
•	Source(s) of feedstock(s) to be anaerobically digested,
•	Rate of expected raw biogas production for specific feedstocks,
•	Income derived from biogas production, and
•	Project cost.
2.	Does the plan include contact information for key project
participants, including the site owner, project owner, project
developer, and project operator?
The project overview should provide the following information:
•	Location of the project site,
•	Name of the site owner with contact information,
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•	Name of the project owner with contact information if different from the site
owner,
•	Name of the project developer with contact information if different from the site or
project owner,
•	Name of the project operator with contact information, if different from the site or
project owner, and
•	Name of the engineering firm responsible for the project design with contact
information.
3. Does the plan include a process flow diagram?
The project overview should include a process flow diagram that includes the
components of the digester system, as well as the flows and loadings of feedstocks,
biogas, digestate, and other materials into and out of the facility.
Feedstock Supply and Characteristics
4. Does the plan adequately describe the source(s), volume, and
characteristics of the feedstocks for the anaerobic digester?
A digester's designed capacity should be fully utilized with a ready supply of adequate
and appropriate feedstocks. Therefore, the plan should include a feedstock resource
availability report, with the following information about the supply of each feedstock:
•	Source and type of feedstock,
•	Daily volume to be digested, and
•	Physical and chemical characteristics, including total and volatile solids and
biochemical oxygen demand, or chemical oxygen demand concentrations and
pH.
The plan should describe all practices to ensure that feedstocks do not contain any toxic
compounds that would interfere with the microbiology of the AD process, and all
measures that will be taken to ensure that foreign objects, such as rocks and sticks that
could damage pumps and mixers, are not present in the digester influent.
For projects that will use livestock manure as a feedstock, the plan should also include
the following information:
•	Livestock species (e.g., dairy cattle, buffalos, swine),
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•	Average number of head (standing population) by age class (e.g., lactating cows,
dry cows, buffalos, heifers),
•	Type of livestock bedding material used (e.g., straw, sawdust, sand), and
•	Method of manure collection (e.g., manual, scrape, or flush).
The following technical elements should be included in each plan:
•	If sand is being used as a bedding material, the plan should include provision for
sand removal before digestion to prevent sand accumulation and continual
reduction of digester hydraulic retention time (HRT).
•	The plan should describe the processes for removing manure from paved
surfaces. For maximal effectiveness, manure would be scraped from a paved
surface, because manure collected from unpaved surfaces includes soil, which
reduces the efficiency of the digester, due to the settling and accumulation of soil
particles in the digester that reduce the HRT.
•	The plan should describe the frequency of manure collection, which should be at
least daily to prevent significant uncontrolled decomposition and loss of biogas
production potential. The plan should discuss how the feedstocks will be stored
and for what time period before they will be added to the digester.
5.	If feedstocks will be obtained from offsite locations, does the plan
present evidence of long-term supply agreements?
If the project will use feedstocks obtained from offsite locations, the plan should include:
•	Evidence of feedstock supply agreements specifying the quantity of feedstocks
that will be supplied to the project and the duration of the agreement,
•	The duration of the agreement, which should ideally be the same as the
expected useful life of the project, and
•	The method of transport of feedstocks from offsite locations.
6.	Does the plan explain how the daily volume of digester influent was
determined?
The plan should include an estimate of the volume of feedstocks available for daily
digestion. For projects that will use manure as a feedstock, this estimate can be based
on either direct measurement or on the livestock species and average number of head
by age class. This estimate should be based on published estimates of manure
excretion rates such as those published in peer-reviewed research literature or by a
national source of engineering data, such as the American Society of Agricultural
Engineers (2005).
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Accurate estimates of daily digester influent volume are critical for determining the
necessary digester volume needed to realize the desired HRT, which is calculated as
follows:
HRT = Digester operating volume (m3) / Daily digester influent volume (m3)
The appropriate HRT depends on the type of digester used, as discussed in the
supporting information for question 7.
•	When manure is or will be collected by flushing, the expected daily digester
influent volume should be based on onsite measurement.
•	When manure is or will be diluted by adding other waste, such as milking center
wastewater, the volume of dilution water also should be determined by onsite
measurement and the total expected daily digester influent volume stated.
7. Is the stated digester influent total solids (TS) concentration
consistent with the proposed type of anaerobic digester?
The plan should include an estimate of the TS concentration in the digester influent
based on values obtained from the literature or sample analysis. This estimate of TS
should account for the effect of dilution, if applicable. The digester influent TS
concentration is important to confirm that the correct type of digester is utilized on-site.
See the table below for acceptable ranges of TS and typical HRT for different digester
types.
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Operating parameters for digester types
Type of AD System
Acceptable
Range of TS
Typical HRT
Plug Flow Digester
10-14%
15-20 days
Complete Mix Digester
3-10%
15-20 days
Covered Lagoon
0.5-3%
35-60 days
Up-Flow Anaerobic Sludge Blanket
Less than 3%
5 days or less
Induced Blanket Reactor
6-12%
5 days or less
Fixed Film/Attached Media Digester/Anaerobic Filters
1-5%
5 days or less
High Solids Fermentation/" Batch" Style Dry AD
Systems
More than
18%
20-30 days
Anaerobic Sequencing Batch Reactors
2.5-8%
5 days or less

Biogas Production Potential
8. Does the plan present calculations for expected volumetric rate of
biogas production for each given influent processed?
Possibly the most important component of a biogas project plan is the estimate of the
expected volumetric rate of biogas production. This quantity is a function of the:
•	Concentration of VS in the digester influent,
•	Volumetric loading rate, and
•	Expected rate of biogas production as a function of volatile solids added (VSa).
Ideally, the plan should present the following calculations to demonstrate the validity of
the expected rate of biogas production:
Mass of Influent TS (kg/day)	= Influent Volume (m3/day) *
Influent Density (kg/m3) *
TS Fraction (decimal)
Mass of Influent VS (kg/day)	= Mass of Influent TS (kg/day) *
VS as a Fraction of TS (decimal)
Rate of Biogas Production (m3/day) = Mass of VS Added (kg/day) *
Biogas Production Rate (m3/kg VS
Added)
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9.	Does the plan demonstrate that the expected rate of biogas
production is consistent with the anticipated feedstock supply and
estimated volatile solids (VS) loading rate?
See supporting information under question 8.
10.	Are the values utilized to calculate the expected volumetric rate of
biogas production the same as peer-reviewed constants for each
given influent processed?
The plan should clearly document all assumptions and inputs used in the biogas
production potential calculations. Reasonable expectations for biogas production per
unit of volatile solids added are listed in the table below for common feedstocks.
Biogas Production Rates for select common feedstocks
Species
Biogas Production Rate,
m3/kg VSa
Source
Lactating dairy cow manure
0.09
Chen and Hashimoto 1980
Feeder pig manure
0.12
Chen and Hashimoto 1980


Ward et al. 2008, IEA
Crop residues
00
o
I
o
Bioenergy 2010, Weiland
2010
Municipal solid waste
00
o
I
CM
o
Ward et al. 2008
Influent density will also depend on the type of feedstock used. As discussed above
under question 7, acceptable values for TS will depend on the type of digester. The
feedstock VS concentration should be determined either by sample analysis or from
published values from peer-reviewed research literature.
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11. If the values utilized for calculating the volumetric rate of biogas
production are different from values referenced in peer-reviewed
resources, does the plan provide clearly documented the
methodology and laboratory analyses which demonstrate that
different values are needed to calculate expected biogas
production?
If the assumptions used in the biogas production potential calculations are not
compatible with standard assumptions, the plan should include the results of laboratory
analysis of the feedstock that will be used in the digester supporting their use of
alternate assumptions.
Biogas Use
12.	Does the plan describe the expected use of the biogas produced
by the anaerobic digester?
The plan should describe how the produced biogas would be used. Options include:
•	Direct combustion in a boiler or furnace for process heat,
•	An engine-generator set fuel to generate electricity,
•	Motor vehicle fuel after processing to remove carbon dioxide, hydrogen sulfide,
and other impurities, or
•	Injection into a natural gas pipeline, as renewable natural gas.
13.	Does the plan describe the assumptions used to determine the
biogas energy content?
The energy content of biogas can help determine the amount of energy an AD project
can generate. The calculation of the energy content of raw biogas should be based on
the lower heating value (LHV) of the methane fraction of the raw biogas, which accounts
for its moisture content. The LHV of methane is approximately 39,800 kilojoules per m3
(37,700 BTU per m3). To estimate the LHV of the produced biogas, multiply the
estimated percent methane in the biogas by the LHV of methane:
LHV of dry biogas = LHV of methane * Methane percentage of biogas
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Biogas is generally 50-60 percent methane. With an assumption of 55 percent methane,
the LHV of dry biogas is approximately 21,900 kilojoules per m3 (20,700 BTU per m3).
However, accounting for the moisture in biogas reduces the energy content by up to 10
percent. Therefore, to estimate the LHV of wet biogas, multiply the LHV dry biogas by
0.9.
LHV of wet biogas = LHV of dry biogas * 0.9
The LHV of wet biogas with 55 percent methane content is approximately 20,000
kilojoules per m3 (19,000 BTU per m3).
If the plan uses other assumptions for the energy content of the biogas, these
assumptions should be clearly documented, including the expected methane and
moisture content of the biogas.
Facilities and Equipment
14. Does the plan include a site plan and applicable engineering
drawings?
A detailed description of the site work should include all structures, such as the digester
and feedstock pre-treatment/handling systems and the equipment that will be installed.
This description consists of a site plan, with applicable engineering drawings, showing
the location of the project relative to existing structures.
A biogas project will have the following key components:
• Feedstock reception pit to collect and temporarily store digester influent,
• Pre-treatment/slurry preparation and handling system,
• An anaerobic digester or a covered lagoon,
• Digester effluent storage facility, and
• Boiler, engine-generator set, or gas processing facility.
The type of digester used is dependent on the influent TS concentration as discussed
under question 7.
Typically, a reception pit will contain an agitator and a pump to transfer the accumulated
feedstocks into the digester. Note that the reception pit should provide no more than
three days of storage. Retention times longer than three days significantly degrade
biogas production potential of held feedstocks, especially in warm climates.
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15. Does the plan include appropriate level of detail in the
descriptions of the project's physical components (e.g.,
structures and equipment)?
The site plan should include:
• The materials that will be used to construct the digester,
• The dimensions of the digester, and
• The assumed values for daily digester influent volume and HRT.
These values are necessary to calculate the required digester operating volume.
The plan should also include a list of all mechanical and electrical equipment that will be
purchased for the project. The information provided by this list should include the name
of the manufacturer, the model, technical specifications, and warranty terms and
conditions. The plan should also include a discussion of the plan for addressing
equipment malfunction, including maintaining a proper inventory of spare parts.
The plan should also demonstrate that projects using engine-generator sets or biogas
processing equipment have adequate but not excessive capacity based on the
expected rate of biogas production.
16. Can the individuals or firms who will be responsible for site
preparation, construction, and equipment installation
demonstrate appropriate qualifications and experience to
successfully complete assigned tasks?
The plan should include a list of the individuals or firms who will be responsible for site
preparation, construction, and equipment installation. Degrees in Agricultural,
Environmental, or related engineering fields are preferred along with experience in
livestock and biological waste management. Include evidence that individuals or firms
associated with the project have professional licenses, such a professional engineering
license. Evidence of previous experience in developing completed biogas projects is
desirable.
17. Does the plan include a reasonable project construction
schedule?
A project construction schedule lists key milestones covering the expected dates of
completion for:
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• Site preparation,
• Digester and any related structure construction,
• Equipment installation, and
• Project start-up.
A project construction schedule also includes expected delivery dates for key equipment
items. Project construction schedules are often represent a best-case scenario but can
be overly ambitious. Construction delays can occur as weather, fulfillment schedules,
shipping times, and staff availability fluctuate over the execution of the project plan. The
project construction schedule should account for such potential delays to the extent
possible.
Project Cost Estimate
18. Does the project cost estimate include an adequate level of
detail?
The need for a precise project cost estimate is critical to determine the financial
feasibility of the project, ensuring that the annualized costs of the project do not exceed
the projected income (discussed in more detail in the supporting information under
question 31). If additional funds are necessary to complete the project, the project may
experience delays in the completion of construction and equipment installation, and the
start of biogas production. Items in an acceptable cost estimate include:
Capital costs
• Land acquisition (if applicable)
• Pre-development costs (e.g. clearances, licenses, proposal preparation)
• Civil works (site preparation),
• Feedstock reception pit construction,
• Digester construction,
• Control building construction,
• Digester effluent storage structure construction (if required),
• Piping and electrical work,
• Equipment including:
o Pumps,
o Biogas processing equipment,
o Biogas purification equipment (if applicable),
o Electricity generation and transmission interconnection equipment (if
applicable), and
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o Bio-CNG equipment, such as compressors, dispensers, cylinders (if
applicable).
• Permits,
• Engineering and project management fees, and
• Contingency allowance
Services and Operation and Maintenance Costs
• Feedstock pre-treatment and handling,
• Annual costs to purchase feedstocks (if applicable)
• Digester effluent costs (including management, transportation, and disposal
costs), and
• Annual labor and monitoring costs.
19. Does the plan demonstrate measures to control costs for goods
and services (i.e. through competitive fixed-price bidding)?
The project cost estimate should be developed using measures to control costs for
goods and services, such as competitive fixed-price bids for all goods and services that
are included in the project plan. Evidence of soliciting and receiving multiple bids for
each of the goods and services that will be used to develop the project should be
included in the plan. The plan should provide explanations for any situations where a
lowest cost bid has been rejected. For cases where the project developers intend to
complete construction activities themselves, rather than utilizing third-party contractors,
the plan should include an estimate of the cost involved. These factors should
demonstrate to potential investors that planners have performed their due diligence to
find suppliers that offer the best value to the project plan.
Financing Plan
20. Does the project-financing plan clearly identify all institutions
contributing grants, loan guarantees, or loans to the proposed
project and strategies to address identified funding gaps?
Biogas projects are often financed by a combination of grants and loans. Therefore, an
acceptable project plan must include detailed information which explains how estimated
total project cost will be covered by expected grants or financing.
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21. Is there evidence of commitment from each prospective source of
funding?
When borrowed capital from a commercial source is involved, a copy of the letter of
commitment from the lender that specifies the terms and conditions of the loan must be
part of the plan package. When there will be project-owner financing, a net worth
statement that demonstrates the capacity to supply the specified sum funds also must
be part of the plan package. Documentation of adequate funding for the execution of a
project plan is needed for banks and lending agencies to ensure that funds are not
committed to projects that will never be started due to lack of adequate funding.
Permits
22. Does the plan identify all permits needed to execute the plan?
Permitting requirements for biogas projects can be highly variable. The plan should
include a list of required permits and indicate that all needed permits have been
obtained or at least applied for. The absence of necessary permits from national and
local authorities could result in the delay of construction and the expiration of fixed-price
bids. A possible consequence is an unnecessary increase in the project cost.
23. Does the plan state (or provide evidence) that the project
developer has applied for the necessary permits?
Demonstrating filed application(s) for the necessary permits offers an additional level of
assurance that the project plan is underway. See supporting information under question
22.
24. Does the plan state (or provide evidence) that the project
developer has obtained the necessary permits?
If the necessary permits have been obtained, investors and supporters of the project
plan have concrete evidence that construction and/or operation can begin. See
supporting information under question 22.
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Operation, Maintenance, and Monitoring
25.	Does the plan include a detailed plan for project operation and
maintenance?
The success of a biogas project depends on uninterrupted operation of all of the system
components. Unplanned digester downtime equates to lost revenue and increased
operating expenses. While operation can be largely automated, achievement of this
objective requires routine system inspection and a program of scheduled maintenance.
Therefore, an acceptable project plan should include a detailed plan for operation and
maintenance (O&M) that identifies the responsible individual or individuals and present
their qualifications based on training and experience.
26.	Does the plan identify the individual or individuals responsible for
operation and maintenance?
See supporting information under question 25.
27.	Does the plan present the responsible individual(s)' qualifications
for operation and maintenance?
If the individual or individuals who will be responsible for O&M lack the required skills
(from question 16), a plan for training should be presented in this section. See
supporting information under question 25.
28.	Does the plan provide a detailed safety plan for the operation of
the project?
The plan should provide detailed guidance for the safe operation of the digester
including:
•	Maintenance of a no smoking/no open flame buffer area around the project with
appropriate signage, due to the flammable and potentially explosive nature of
biogas.
•	Provisions for confined space entry procedures, as biogas can cause
asphyxiation and the presence of hydrogen sulfide in biogas is extremely
poisonous.
•	An O&M plan should include a schedule for daily inspection to:
o Ensure proper operation of biogas utilization and/or processing
equipment, and;
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o Identify physical damage to structures and equipment that could be the
source of a biogas release to the atmosphere.
29. Does the plan provide a process-monitoring plan?
Monitoring the performance of anaerobic digestion processes is critical for long-term
project success. Process failures translate directly into the loss of biogas-derived
income and the possibility of invalidating contractual agreements. Both the rate of
biogas production and methane content should be recorded and reviewed daily. Both
values are important indicators of the stability of the microbial activity responsible for
biogas production.
If the biogas produced is to be used onsite, the reduction of moisture and hydrogen
sulfide are minimum requirements to reduce the corrosion potential associated with
combustion equipment such as a boiler or electric generator. Therefore, the plan should
include monitoring of the performance of the processes employed.
For the conversion of biogas to renewable natural gas, additional processing to remove
carbon dioxide and other impurities along with compression is necessary. Thus, a
provision for monitoring the additional conversion equipment will be necessary to
ensure satisfaction of any specifications required.
30. Does the plan provide a digester effluent disposal plan, if
applicable?
The plan should include a plan to address the disposal of the digester effluent
(digestate). The plan should be based on generally accepted primary plant nutrient
(nitrogen, phosphorus, and potassium) management practices. If the project incurs
disposal costs for the digester effluent, this represents an operating cost in the
evaluation of the project's financial feasibility.
Financial Feasibility Assessment
31. Does the plan clearly describe how the expected income from
biogas was determined?
It is critical that a project developer be able to demonstrate the annual income
generated by the project at least equals and preferably exceeds costs over the
expected life of the project. To do so, the plan must include a pro forma income and
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expense statement identifying and quantifying expected sources of income and
expenses annually over the expected life of the project, typically 20 years.
The pro forma income and expense statement should include:
•	A detailed accounting of expected expenses including operating, maintenance,
and monitoring costs.
•	The cost of energy for project operation based on parasitic load should be
accounted for as a project expense.
•	Many components of a biogas project, such as pumps, agitators, heat
exchangers, flexible digester covers, engine-generator sets, and biogas
processing components, will have an expected useful life that is less than the
project expected life. The pro forma statement should include replacement
expenses for this equipment.
•	Insurance costs for the plant and equipment.
•	If the project is partially owner-financed, the return of capital with a reasonable
rate of interest should be treated as a project expense.
32.	Does the plan provide sufficient justification for the assumptions
embedded in the pro forma income and expense statement?
See supporting information under question 31.
33.	Is there documentation of the current on-site load or projected
demand, if the project's resultant biogas or electricity will be used
onsite?
If the produced biogas or electricity will be used onsite, the plan should include a
projected amount of biogas to be used as a boiler, furnace, or vehicle fuel, and/or the
electricity to be used for buildings or equipment.
The electricity generation potential can be estimated by using the thermal efficiency
provided by the manufacturer of the engine or generator. The plan should also include
documentation of sufficient historical demand for the amount of energy consumption
comparable with the expected energy production from the biogas project.
For projects at new facilities or existing facilities that are expected to see a large
increase in energy demand, the plan should include:
•	Documentation of the expected energy demand, and
•	An explanation of assumptions used to estimate the energy demand.
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For example, a dairy facility could plan to add a new refrigeration unit that will be
powered by the energy produced by the biogas system. In this example, the plan should
include an estimate of the energy demand for the refrigeration system based on the
manufacturer's specifications, as well as energy demand from other systems at the
facility.
The documentation of historical and/or expected energy demand should account for
seasonal variation in demand, if applicable. The purpose of this documentation is to
ensure that the project will not produce substantially more energy than can be used on-
site.
34.	If processed biogas or electricity generated using biogas will be
sold to a third party, does the plan provide copies of contractual
agreements or letters of intent?
If the project will sell processed biogas or electricity to a third party, the plan should
provide copies of contractual agreements or letters of intent covering the sale of the
biogas. For example, projects where biogas is used to generate electricity should
include a Power Purchase Agreement. Documentation of similar biogas off-take
agreements are needed to support the validity of all expected sources of income.
35.	If the project will claim income from other sources, such as
certified carbon emission credits or Renewable Electricity
Certificates, does the plan demonstrate the validity of these
income streams (e.g., contracts, letters of intent, etc.)?
For projects claiming income from carbon emission credits, Renewable Electricity
Certificates, or other sources, the plan should include the contract or letter of intent for
the purchase of the credits or certificates. For projects claiming income from carbon
emission credits, the plan should also include the calculations of the carbon emission
reductions for which they will be claiming credit.
Summary
This checklist and supporting information should be used to review project plans or
proposals to determine whether there is sufficient information to determine the technical
and financial feasibility of the project. The checklist provides project developers with an
outline of the information needed to prepare more complete plans or proposals for
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project financing and is also designed to assist government agencies and financial
institutions conduct a systematic review of proposals for project financing.
Reviewers should pay particular attention to four critical, overarching questions in
determining whether to approve a project plan or proposal for funding:
•	Has the plan demonstrated the ability to obtain a sufficient and consistent
supply of feedstocks for the project?
•	Do the individuals responsible for construction, operation, and maintenance
have the necessary skills, education, and/or experience with AD systems?
•	Has the plan demonstrated the ability of the project to produce sufficient
quantities of biogas?
•	Has the plan demonstrated the financial feasibility of the project, including
executed contracts or binding letters of intent covering the sale of the biogas,
electricity, and/or other products from the project?
Project developers should provide enough information in their plans to answer these
four critical questions.
Abbreviations and Acronyms
AD
anaerobic digester
HRT
hydraulic retention time
LHV
lower heating value
O&M
operation and maintenance
TS
total solids
VS
volatile solids
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References
American Society of Agricultural Engineers. 2005. Manure Production and
Characteristics. ASAE D384.2 MAR2005. American Society of Agricultural
Engineers, St. Joseph, Ml.
Chen, Y.R. and A.G. Hashimoto. 1980. Substrate Utilization Kinetic Model for Biological
Treatment Process. Biotechnology and Bioengineering, 22: 2081-2095.
IEA Bioenergy. 2010. Biogas from Energy Crop Digestion. Paris, France.
https://www.ieabioenergv.com/publications/biogas-from-energy-crop-digestion/
Ward, A.J., P.J. Hobbs, P.J. Holliman, D.L. Jones. 2008. Optimisation of the anaerobic
digestion of agricultural resources. Bioresource Technology, 99: 7928-7940.
Weiland, P. 2010. Biogas production: current state and perspectives. Applied
Microbiology and Biotechnology, 85: 849-860.
This resource was developed by the U.S. Environmental Protection Agency.
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