Screening Sites for Solar PV Potential
Emphasis on Redevelopment of Potentially Contaminated Sites,
RE-Powering America's Land Initiative: Solar Decision Tree
Through ongoing collaboration, the Environmental Protection Agency (EPA)
and Department of Energy's National Renewable Energy Laboratory (NREL)
created a decision tree to guide state and local governments and other
stakeholders through a process for screening sites for their suitability for
future redevelopment with solar photovoltaic (PV) energy.
Targeted sites include brownfields, Superfund sites, RCRA sites, mining sites,
landfills, abandoned parcels, parking lots, and commercial/industrial
rooftops. EPA encourages the development of these targeted sites, instead
of green space.
This decision tree can be used to screen individual sites for solar potential or
for a community-scale evaluation of multiple sites.
It is not intended to replace or substitute the need for a detailed site-specific
assessment that would follow an initial screening based on the decision tree.
Tips on how to obtain information relevant to various parameters in the
decision tree are provided.
Through the RE-Powering America's Land initiative, the EPA encourages
renewable energy development on potentially contaminated land when
aligned with the community's vision for the site. This tool outlines
considerations specific to the redevelopment of potentially contaminated
sites. Potentially contaminated land includes sites where contamination is
suspected but has not been confirmed and sites where contamination has
been identified.
The EPA also promotes redevelopment of urban sites to achieve "Smart
Growth" objectives. Community vision for the site, as well as the site's key
attributes, should shape the redevelopment plan.
Many additional resources can be found on the EPA and NREL websites:
www.epa.gov/renewableenergyland
www.nrel.gov/1 earning/re solar.html
Underutilized Sites, or Rooftops
Process Overview
^ A
Solar Resource
Available Area
Distance to Existing Infrastructure
1. Pre-
Site Topography
Screening
Redevelopment Priorities & Land Use Exclusions
L A
Owner interest
System Type: Rooftop or Ground Mount
Electricity Costs
Energy Demand
Contaminated Site Considerations, Status, and Readiness
II. Financial
Screening
Policy Considerations
Federal and State rebates and incentives
Installation costs
Key Audiences & Document Purpose
Stakeholder
Purpose
State and Local Governments
To help states and municipalities screen and prioritize existing sites for their suitability for solar PV installations. Targeted sites include brownfields, Superfund
sites, RCRA sites, mining sites, abandoned parcels, landfills, parking lots, and commercial/industrial rooftops.
Clean-up Project Managers
To aid clean-up project managers to screen their potentially contaminated sites for PV development potential.
Renewable Energy Developers
To introduce renewable energy developers to considerations unique to redevelopment of potentially contaminated sites and provide a common framework for
discussions with state and local governments at the project development phase for a PV installation. This content is primarily covered in Phase II of the screening
process.
Site Owners
To help site owners evaluate a given property for renewable energy potential.
A United States
Environmental Protection
kl * % Agency
~ NREL
NATIONAL RENEWABLE ENERGY LABORATORY
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Phase I. Pre-Screening
Solar Photovoltaic Decision Tree
Phase II. Site Screening
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Phase III. Financial Screening
1.1 General Site
Characteristics
1.2 Usable Acreage
1.3 Redevelopment
Considerations
11.4 Site Ownership &
System Type
For Ground-Mount
For Rooftop applications
11.5 Landfill
Considerations
Cat. 1-2 sites
11.6 Considerations
Related to Potential
Contamination
11.8 Load
Assessment
11.9 Financial
Screening
Cat. 3-5 sites \
S 1
11.7 Initiating
Assessment &
Remediation
Appendix A.
Smart Growth
Objectives
Appendix B.
Contaminated Site
Priority Notes
Appendix C.
Site Checklists
Appendix D.
Federal Incentives
Appendix E.
State & Local
Incentives
Screening Process Overview
Phase
Explanatory Text and Additional Resources
1
Pre-Screening: Addresses data readily available through GIS parcel maps and online databases, as well as information that can be easily obtained through visual inspection.
II
Site Screening: Addresses data that generally requires collecting information from property owners or site managers. May also require site-level investigation, potentially using specialized tools or equipment.
III
Financial Screening: Addresses economic, policy, and incentive factors that further influence payback.
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Environmental Protection
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NATIONAL RENEWABLE ENERGY LABORATORY
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RE-Powering America's Land Initiative
Decision Tree: Tool Features
Guide to Decision Tree Features
The Solar Decision Tree is designed to guide users
through a three-phase process to assess sites for
redevelopment with solar PV.
This tool utilizes several components to facilitate
the screening process and to provide users with
additional information on each of the screening
criteria.
Users navigate the decision tree by responding to
questions in the "Evaluation" boxes. Depending
on the response, the user is directed to the next
criteria or alerted to an potential obstacle by the
"Flags." The user is directed to the next process
step by "Arrows."
Tips on how users can obtain information relevant
to various parameters in the tree are provided in
the "Notes" and "Highlights."
For each "Evaluation" box, the corresponding
"Note" section provides a brief explanation
associated with the question posed.
For each "Flag," the corresponding "Note"
summarizes the potential impact of the obstacle
to the viability of the PV redevelopment project.
In some cases, the tool also provides information
on alternatives or additional considerations that
may mitigate the impact of a given obstacle.
Supplemental information related to many
process steps is provided in the "Highlights"
boxes.
If you have questions or feedback on the tool,
please contact Lura Matthews of the RE-Power
team:
matthews.lura@epa.gov
Process flow chart
Indicates active phase in the site
screening process
Process Step title
Indicates process step number
and title to aid navigation in
decision tree
Evaluation box
Poses a question to guide the
user through screening criteria
Notes
Provides information on the
criteria, potential impact of "Flag"
responses, and additional
considerations that aid site
screening.
Note labels
Link explanatory notes to each of
the "Evaluation" boxes, "Flags,"
or "Arrows."
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Flag
Indicates potential obstacle for
redevelopment with solar PV
based on user response. Points
user to "Notes" for additional
guidance and information.
Highlight
Provides supplemental
information on topic pertinent to
screening step
Arrow
Directs user to proceed to next
step in screening process
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RENEWABLE ENERGY LABORATORY
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RE-Powering America's Land Initiative Solar Photovoltaic Decision Tree 4 of 18
1.1 General Site Characteristics
IB. No. PV may not be
viable. Read below for
additional information
and guidance.
ID. No. PV may not be
viable. Read below for
additional information and
guidance.
If powering remediation,
continue to IE.
IF. No. PV may not be
viable. Read below for
additional information
and guidance.
1H. No. PV may not be
viable. Read below for
additional information
and guidance
II. Yes. Continue to 1.2 Usable
Acreage
1G. Yes. Is distance to graded
road less than 1 mile?
Phase II. Site Screening
Phase I. Pre-Screening
Phase III. Financial Screening
1A. Is the solar resource at the site
classified as 'Good' (greater than 3.5
kWh/m2/day) or better?
IE.Yes. Is distance to
transmission and/or
distribution lines less than 1/2
mile?
1C. Yes. Is the useable space at
least 2 acres for Ground Mount
or 30,000 sq. ft. for Rooftop
sites?
Rank sites according to usable acreage:
Priority 1: > 5 acres
Priority 2: > 2 but < 5 acres
In general, assume land requirements of 5 acres per
megawatt (MW). This will vary based on the efficiency of
the PV technology and space requirements of the mounting
system selected.
Project economics will be partially driven by overall system
size. The larger the PV system, the lower the unit cost per
Watt ($/W), the more power produced, and the faster the
payback.
Sites with < 2 useable acres may be economically feasible if bundled in a package of
separate installations that, in total, will have a significant combined capacity, e.g., > 1,000
kW of power. By creating a single RFP to cover multiple sites grouped by size and financing
method, participating site owners may benefit by reducing transaction costs and creating
economies of scale.
To create a community-scale inventory of eligible sites, obtain a local GIS parcel database
map as a baseline layer. Using ArcMap/ArcView, create a GIS layer that only includes sites
that meet the useable acreage threshold and subsequent parameters in this decision tree.
Site Prioritization by Acreage
Bundling Sites through Collaborative Procurement
Phase 1.1: Pre-Screening - General Site Characteristics
Question
Explanatory Text and Additional Resources
1A
The solar resource potential is measured in kilowatt-hours per square meter per day (kWh/m2/day). The majority of the US meets the 3.5 kWh/m2/day threshold. NREL's Renewable Energy Resource maps
(www.nrel.sov/sis/solar.html) provide information at the regional level. For a specific site, use the EPA Renewable Energy "Goosle Earth" Interactive Mapping Tool (www.epa.gov/renewableenersvland/maDDing tool.htm). Solar
resource potential is not likely to vary significantly among sites in the same geographic vicinity and elevation.
IB
If the solar resource for this particular site is classified as less than "Good" (having less than 3.5 kWh/m2/day), a solar PV system may not be ideal for redevelopment at this site, unless the state also has strong incentives. We
recommend exploring other renewable energy redevelopment options or infill redevelopment options. Note: Infill indicates redevelopment within an urban setting.
1C
Usable acreage is typically characterized as "flat to gently sloping", southern exposures that are free from obstructions and get full sun for at least a 6-hour period each day. For example, eligible space for PV includes under-utilized
or unoccupied land, vacant lots, and/or unused paved area, e.g. a parking lot or industrial site space, as well as existing building rooftops. For an individual site to be viable for redevelopment with solar PV, the usable acreage should
be at least 2 acres or 30,000 sq. ft. in order to install a system of at least 300 kW or greater in order to make the site economically feasible.
ID
If the usable acreage does not meet the size threshold, consider bundling rooftop and ground-mount systems at the same site or bundling multiple sites. If the useable area still does not meet the threshold, solar PV may not be
viable at this site.
If considering PV to power remediation activities (e.g. pump and treat) at a clean-up site, a smaller PV system may be able to power onsite loads. In this case, the area threshold may not be applicable depending on onsite energy
demand. Continue to Question IE.
IE
In dense to moderately dense urban settings, assume that most properties meet this criterion. Depending on overall system size and economic factors, it may be feasible to build the necessary infrastructure to reach the grid tie-in
location. If you are considering an off-grid (non-grid connected) system, distance to transmission is not a limiting factor, continue to Question 1G.
IF
If the system will be grid-connected and the distance to transmission is more than 1/2 mile, solar PV may not be viable due to the additional cost associated with connecting the system to the nearest grid tie-in. If the system will not
be grid-connected (off-grid), move forward in the decision tree to Question 1G.
1G
In dense to moderately dense urban settings, assume that most properties meet this criterion. If you are considering an off-grid (non-grid connected) system, the distance to graded roads is not a limiting factor, continue forward in
the decision tree to Question 11. The distance to graded roads may only become a factor during the installation phase of development for an off-grid system as contractor vehicles may find it difficult to access the site. There may be
additional requirements associated with emergency-vehicle access.
1H
If the system will be grid-connected and the distance to graded roads is greater than 1/2 mile, the additional cost associated with developing access roads may make solar PV development cost-prohibitive. If the site in question has
access points/non-graded roads that you believe will not prohibit contractor vehicles from accessing the site during installation, operation and maintenance phases, you should answer "Yes" and continue forward in the decision
tree to Phase 1.2 Pre-Screening - Usable Acreage.
11
Continue to Phase 1.2 Pre-Screening - Usable Acreage
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Phase II. Site Screening
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Phase III. Financial Screening
1,2 Usable Acreage
2B. No. PV may not be
viable. Read below for
additional information
and guidance.
2D. Yes. PV may not be
viable. Read below for
additional information
and guidance.
2F. Yes. PV may not be
viable. Read below for
additional information
and guidance.
2G. No. Continue to 1.3
Redevelopment Considerations
2C. Yes. Is there significant
shading on the site?
Proceed if unshaded area is still
> 2 acres.
2A. For Ground Mount: Is the slope
of the land less than 6 degrees? Or
can the site be easily graded?
For Rooftop: Proceed to 2C
2E. No. Are there existing
obstacles on the site?
Proceed if unobstructed area is
still > 2 acres.
NOTE: If it is difficult to assess the impact of shading or
obstructions on the site or there is no GIS expertise within your
organization, proceed to Phase 1.3 Redevelopment
Considerations. If the project moves forward, it is customary to
perform a more detailed site assessment in order to support
project design and performance predictions.
RE-Powering America's Land Initiative & Google Earth
The RE-Powering Renewable Energy Interactive Mapping
Tool, a Google Earth KMZ file, provides EPA information about
siting renewable energy on contaminated land and mine
sites, alongside other information in Google Earth.
Users can also estimate site area and measure distances to
surrounding features, e.g. buildings or roads.
Using Google Earth with the "terrain" layer enabled, a
preliminary shading analysis is possible using the "Sunlight"
tool, which shows sunlight across the landscape throughout
the day.
Morning
Midday
Google Earth "Sunlight" tool used to show effects of
morning shading on the west side of a landfill site,
compared to mid-day conditions.
Phase 1.2: Pre-Screening - Usable Acreage
Question
Explanatory Text and Additional Resources
2A
If the slope of the site is greater than 6 degrees (~10% grade), solar PV may not be viable. Low-slope sites and rooftops are ideal for PV systems.
2B
If the site in question has a slope of 6 degrees (~10% grade) or greater and cannot be leveled at a reasonable cost, solar PV may not be viable. Solar geomembrane technologies and other mounting systems may enable installation
on higher grades.
2C
To optimize power production, PV arrays are sited to receive minimal shading for the majority of the day. As such, setbacks are required from surrounding buildings and trees. Additionally, array layouts may be constrained due to
shading from prominent terrain features, e.g. hills, adjacent to the array. As a general rule of thumb, for every foot of tree height, the solar array must be at least that distance away. For example, to accommodate a row of trees 10
feet tall, the 10-foot perimeter surrounding the trees would be considered unavailable acreage for solar. Note: For northwest-facing trees or buildings that do not cast shadow onto the site, do not subtract from the useable
acreage. If evaluating sites across the community, software such as the Spatial Analyst tool of the ArcGIS toolbox is available to automatically calculate and rank solar radiation potential using slope, orientation, and shading from
surrounding structures and trees (www.esri.com/software/arcgis/extensions/spatialanalvst/solar.htmn. Using Google Earth, users mav be able to identify areas that are shaded during the dav due to surrounding terrain bv viewing
the site with the "Terrain" layer enabled with the sunlight tool function. This feature enables the user to model sunlight during different times of day throughout the year. Please note that (i) the terrain mapping may not be
accurate for sites with extensive grading and (ii) the sunlight tool does not model shading from man-made structures or trees.
2D
If large sections of the site do not receive at least 6 hours per day of sunlight, there will be significant impacts on system performance. For green remediation, the area threshold may not be applicable depending on onsite energy
demand.
2E
Subtract areas of the targeted site that contain obstructions, such as equipment or storage areas on parking lots, or vents or skylights on rooftops. For this type of equipment or other obstructions, generally the system can be
designed around such structures, using a shading offset to mitigate impact on system performance. Zooming into the site on Google Maps can reveal physical obstacles. Removal of large-growth vegetation can be costly and, on
some sites, be restricted due to erosion or other concerns especially on landfills due to cap integrity.
2F
If existing obstacles reduce the overall usable acreage below 2 acres, there may be insufficient land available to make PV viable at this site. For green remediation, the area threshold may not be applicable depending on onsite
energy demand. If it is difficult to estimate the affected area, continue to 1.3 Pre-Screening - Redevelopment Considerations, understanding that the final usable acreage may be reduced.
2G
Continue to 1.3 Pre-Screening - Redevelopment Considerations
O United States
Environmental Protection
Lb I m m Agency
~ NREL
NATIONAL RENEWABLE ENERGY LABORATORY
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Phase I. Pre-Screening
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Phase III. Financial Screening
1.3 Redevelopment Considerations
3A. Is the site free of
land-use exclusions or
restrictions that would
preclude the use of PV?
3B. No. PV may not
be viable. Read
below for additional
information and
guidance.
3C. Yes. Does the
community have a
vision for reuse of the
site or is there a
redevelopment plan?
Community Vision
The end use should be determined through a combination of the community's
vision for the site, key site characteristics, and community assets. It is important
that early consultation occur with the local community to ensure that reuse for
renewable energy is aligned with the community's long term vision for the site.
EPA promotes this approach in all land revitalization efforts.
Many end uses should be considered during the planning phase. The site may be
dedicated to a single use or a combination of integrated uses. For example, PV
can be co-located with urban agriculture projects or integrated with commercial
reuse.
3D. Yes. Is PV
compatible with the
community vision or
redevelopment plan?
\
3G No. Is PV the best
reuse option for the site? I
3E. No. PV may
not be viable.
Read below for
additional
information and
guidance.
3F. Yes. Evaluate potential to
include PV as a component of the
redevelopment plan. Go to 11.4
Site Ownership & System Type.
3H. Yes. Goto 11.4Site
Ownership & System Type.
31. No. Consider integrating PV into
reuse plans of the site. Go to 11.4 Site
Ownership & System Type.
Site Ownership
To proceed to the next step, you will need to
engage with the site owner. Site ownership will
drive the development path, impacts the
structure of the system sale, and determines
what incentives are available.
Site ownership information is readily available
through checking either a local-level GIS parcel
database or county-level parcel tax database. At
this point in the process, simply take note of the
site ownership and continue on in the decision
tree. If evaluating sites across the community, a
local-level GIS parcel database should include
information on parcel ownership; sites that
remain in the running can be categorically
grouped according to public versus private
ownership in preparation for Phase II.
Phase 1.3: Pre-Screening - Redevelopment Considerations
Question
Explanatory Text and Additional Resources
3A
Certain sites will be excluded from consideration for renewable energy development, such as environmentally sensitive or preservation areas, for example wetlands and wilderness preservation areas. If not readily known, this
information can be obtained from the city land use planning department. Some land-use exclusions or restrictions include:
- Exclusion of water, wetlands, wild and scenic rivers, wilderness study area, and critical habitat areas for endangered or threatened species
- Restrictions may be applicable for areas surrounding airports
- Restrictions may also be associated for federal lands with special designation such as national parks, national preserves, national monuments, national conservation areas, and wilderness areas.
Refer to the DOD-NRDC Renewable Energy and Defense (READ) geospatial database to identify appropriate sites that may be unlikely to interfere with military activities and training and may have the fewest environmental
conflicts. http://www.nrdc.org/energv/readgdb.asD
3B
If the site has land-use exclusions associated with it, the incremental cost associated with developing renewables on that site may make the site cost-prohibitive.
3C
Check if the land area or rooftop being evaluated for solar potential is located on a parcel that is already targeted for redevelopment in the context of a land use planning process, e.g., a Redevelopment Plan or a Specific Area Plan.
If evaluating sites across the community, seek input from the municipal land use planning department to compare the most current Redevelopment Plan map with sites targeted for solar. If a RCRA or Superfund site, check with EPA
or State Clean-Up Manager, Potentially Responsible Party (PRP) or property owner to inquire about existing redevelopment plans. Based on community vision for the site, consider the potential to incorporate PV into the
redevelopment plans and continue to 11.4 Site Ownership & System Type.
3D
PV could be evaluated as a potential component of a future redevelopment plan.
3E
Evaluate the potential to add PV as a component of the redevelopment plan for either residential or commercial end uses.
3F
Solar PV could be evaluated as a potential component of a future site re-use plan. If appropriate, continue to Phase 11.4 Site Screening - Site Ownership & System Type.
3G
In some cases, the site or designated planning area in which the site is located may not have been through a community visioning process, which takes into account various future land re-use scenarios. Important considerations for
determining potential reuse options for a site include community vision for the site, market realities, existing infrastructure, and realities of existing contamination, if present. EPA encourages meaningful community involvement in
a locally-driven planning process. EPA has developed tools and programs to assist communities in this process, such as Smart Growth and Brownfields Area-Wide Planning initiatives. Through the planning and visioning process,
communities may determine that residential or commercial infill may yield more benefits when compared to PV as an end use. See Appendix A for guidelines in evaluating whether the site may be a priority for future
redevelopment based on Smart Growth objectives.
3H
Continue to Phase 11.4 Site Screening - Site Ownership & System Type.
31
Solar PV could be evaluated as a potential component of a future reuse plan, e.g. rooftop or carports. If appropriate, continue to Phase 11.4 Site Screening - Site Ownership & System Type.
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Phase III. Financial Screening
3
Phase I. Pre-Screening
Phase II. Site Screening
11.4 Site Ownership & System Type
4A. Is the site owner
interested in
investing in, selling,
or leasing in order to
enable development
of renewable energy,
specifically PV?
4B. No. PV may
not be viable.
Read below foi
additional
information an*
guidance,
4C. Yes. Are you
targeting a rooftop
(on a building) or
ground-mount (on
land) PV system?
Engaging Site Owners
Consider approaching site owners to share site eligibility
information from Phase I and gauge the owner's level of
interest in moving forward.
If evaluating sites across a community, consider inviting site
owners to attend an informational meeting to explore
benefits & opportunities of PV and options to include PV as
part of the redevelopment plan for contaminated sites and
consider collaborative procurement. Request interested
site owners to provide information pertinent to Phase II
criteria in order to assess their site's eligibility.
4D. Rooftop: Will the
building on site be
demolished in the
near future or will it
remain?
4E. Demolished. PV
may not be viable for
this building at this
time. Read below for
additional information
and guidance or
consider a ground
mount system.
4F. Remain. Is the
building < 3 stories in
height?
4M. Ground-mount: Is /
the site a landfill?
4N. Yes. Go to 11.5
Landfill Consideratioi
40. No. Is the site
contaminated or
potentially
contaminated?
4G. No. PV may
not be viable.
Read below for
additional
information anc
guidance.
4H. Yes. Is the roof
< 10 years old?
4P. Yes. Go to
11.6 Contaminated Land
Considerations.
4Q. No. Go to 11.8 Load
Assessment
41. No. PV may
not be viable.
Read below for
additional
information and
guidance.
4J. Yes. Is the existing
roof capable of
bearing the added
load of the PV
equipment
(3-6 ft-lbs/sq. ft.)?
\
4K. No. PV may\
not be viable.
Read below for
additional
information and
guidance.
4L. Yes. Continue to
Load Assessment
Phase 11.4: Site Screening - Site Ownership & System Type
Question
Explanatory Text and Additional Resources
4A
Engage the site owner to gauge level of interest and what role the site owner would be interested in playing with respect to the PV system. At this stage, determine whether there are any restrictions that would preclude a long-
term lease.
4B
If the site-owner is not interested in investing in redevelopment with solar PV, the project may not be viable at this time. You may wish to explore opportunities and resources to help inform the site-owner of possible benefits
associated with redeveloping with renewable energy. Additional resources are available through the EPAandNREL websites referenced in the introduction.
4C
Determine whether the PV system is intended to be installed as a ground-mounted system (i.e.. on open, fairly flat land) or if it will be installed as a roof-mounted system on an existing building. If you intend to have both ground-
mounted and roof-mounted systems, please utilize both branches of the tree to determine whether a PV system will be appropriate for one, both or neither.
4D
Speak with the site owner or conduct an on-site visit to learn about any future plans for the building on site. If the building is anticipated to remain for the life of a PV system (25+ years) and be in good structural condition for the
foreseeable future, this may be a good option for a roof-mounted PV system.
4E
If the building is going to be demolished, PV may not be a viable option at this time. If a new building will take its place, consider solar PV as the new building is being designed and built.
4F
Coupled with wind zone, building height will impact overall design loads for the PV system. Many system types are limited to buildings with 3 stories or fewer. Taller buildings may have constraints due to the presence of competing
equipment, issues with access for lifting materials, or inability to sufficiently offset energy consumption given available space.
4G
Certain mounting system designs may be capable of meeting building code requirements on taller buildings. Follow-up consultation with an installer is recommended.
4H
Consult facility manager to determine age of existing roof and planned replacement schedule.
41
If the integrity of the roof is poor or if the roof is expected to be replaced within the next 2-15 years, PV may not be a viable option at this time. Coordinating PV installation with the roof replacement timeline will decrease overall
costs associated with re-roofing and maintenance.
4J
Consult facility manager to determine bearing capacity of existing roof and structure. In many cases, consultation with a structural engineer may be required to confirm.
4K
The building and/or roof may not be designed for additional load bearing capacity. Follow-up consultation with a structural engineer is recommended to determine options for reinforcing the roof.
4L
Continue to 11.8 Load Assessment
4M
Remediation and installation considerations are different for landfill applications, as compared to general contaminated sites.
4N
Continue to 11.5 Site Screening - Landfill Prioritization
40
Contaminated sites may require additional design, construction, and maintenance considerations. These potential considerations should be taken into account during the screening process.
4P
Continue to 11.6 Site Screening - Contaminated Land Considerations
4Q
Continue to 11.8 Site Screening - Load Assessment
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Phase I. Pre-Screening
Solar Photovoltaic Decision Tree
Phase II. Site Screening
11.5 Landfill Considerations, Part 1
5B. Yes. Are there
portions of the landfill
already closed or planned
for closure in the next 12
months?
5A. Is the landfill
currently active?
51. No. Is the landfill lined
and capped?
5C No. Has the closure
plan been established?
5H. Yes, partially
closed. Go to 51 as if
landfill is closed.
5J. No. PV may not>
be viable. Read
below for
additional
information and
guidance.
5D. Yes. Is the addition of a
PV system compatible with
the existing closure plan?
5G. No. Integrate PV with overall
landfill closure. Go to 11.8 Load
Assessment.
5K. Yes. Do institutional controls
apply that limit redevelopment at
the landfill site such that PV
nnot be implemented?
5L. Yes. Are there at least > 2
acres of land available on the
site where these restrictions do
not apply?
50. No. Go to
11.5 Landfill Considerations Part 2
5E. No. PV may not be
viable. Read below for
additional information
and guidance.
5F. Yes. Go to
i Load Assessment.
5M. No. PV may not
be viable. Read below
for additional
information and
guidance.
PV Geomembranes
5N. Yes. 11.5 Landfill Considerations
Part 2.
For landfills that have not yet
been capped or that have steep
slopes, PV geomembranes can
serve as the landfill cap integrated
with solar modules.
Phase 11.5: Site Screening - Landfill Considerations, Part 1
Question
Explanatory Text and Additional Resources
5A
Candidate landfills should be carefully chosen based on status. There are opportunities for both active and closed landfills; each require special design considerations.
5B
Target cells that are (i) planned for closure or (ii) have been closed for near-term installations. For long-term planning purposes, consider designing a PV system integrated into the closure plan.
5C
For active sites, consider (i) installing PV in buffer zones on the site and/or (ii) integrating a PV system into the closure plan. Buffer zones will likely place fewer design restrictions on the PV system design, while integrating PV with
the cap design, e.g. a solar geomembrane, provides an opportunity to focus on which PV technology works best with various landfill caps.
5D
If there is an existing closure plan, evaluate options to add a PV system as part of the design.
5E
If the closure plan is not compatible, reconsider use of buffer zones. See 5C notes for benefits of developing buffer zones.
5F
Continue to 11.8 Site Screening - Load Assessment
5G
Integrating PV with the cap design allows for optimization of both systems by building the required infrastructure for the PV system into the cap design and vice versa. Continue to 11.8 Site Screening - Load Assessment
5H
If the landfill has closed cells, target these portions for near-term development. Go to Question 51.
51
Obtain records associated with landfill design to determine overall construction. Modern landfill are well-engineered facilities that are designed, operated, and monitored to protect the environment from contaminants that may be
present in the solid waste stream. If active prior to 1970, there is a high likelihood that the site may not be lined and may contain contaminants.
5J
In the case that the landfill is not lined and properly capped, there may be restrictions on redevelopment due to potential for exposure to landfill contents.
5K
Landfill caps range from highly engineered systems to simple backfill. Understanding the nature of the cap and its functional components is necessary to determine what options are available with respect to installing a PV system
directly on the cap and what modifications to the cap and/or PV mounting system design to ensure cap integrity.
5L
Institutional controls include (i) proprietary controls, i.e. easements or covenants; (ii) governmental controls, i.e. zoning or building codes; (iii) enforcement and permit tools, i.e. restrictive landfill closure permits; and (iv)
informational devices, i.e. deed notices.
5M
If institutional controls apply, evaluate the potential to amend the control to enable redevelopment with PV. For example, zoning has been successfully changed to facilitate PV installations. If appropriate, evaluate the impact to the
usable acreage in order to confirm sufficient space is available.
5N
If the usable acreage does not meet the size threshold, consider bundling rooftop and ground-mount systems at the same site or bundling multiple sites. If the useable area still does not meet the threshold, solar PV may not be
viable at this site. If there is the sufficient usable acreage, go to 11.5 Landfill Considerations, Part 2.
50
If redevelopment at the site is not limited by institutional controls, go to 11.5 Landfill Considerations, Part 2.
rn* United States K I D C I
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Phase III. Financial Screening
RE-Powering America's Land Initiative
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Phase I. Pre-Screening
Solar Photovoltaic Decision Tree
Phase II. Site Screening
11.5 Landfill Considerations, Part 2
5P. Has the landfill
settled (or is
expected to settle)
uniformly?
\
5Q. No. PV may not be
viable. Read below for
additional information
and guidance.
5R. Yes. Will a PV installation
violate existing erosion control
mgmt plans or vegetative cover
specifications?
NOTE: Issues associated with these landfill
considerations may be mitigated with additional
engineering of the PV system and/or modifications to
the existing cap, as well as collection and monitoring
systems. When responding to these questions, consider
the feasibility of altering the existing operation at the
facility under evaluation. If feasible, continue in the tree.
5S. Yes. PV may not be
viable. Read below for
additional information
and guidance.
5T. No. Do the piping and collection
systems have sufficient weight
bearing capacity to support added
weight from a PV system and
construction equipment?
5U. No. PV may not be
viable. Read below for
additional information
and guidance.
Treating the Landfill and PV as an Integrated System
The feasibility assessment and subsequent PV design must take into account the
interplay between the PV system and the landfill. PV installations on landfills should be
treated as an integrated system, not as a separate landfill and PV system. The addition of
a PV system may alter the landfill by affecting storm water flows or changing the
exposure to sun and wind.
Erosion control, vegetative covers, and storm water management will need to be taken
into account for landfill cap integrity and regulatory requirements, as well as PV system
design constraints. For example, most PV systems will require short-growth vegetation to
avoid shading on panels and contact with electrical wiring. Landfills and other capped
remediation systems generally are built with a minimum 3% slope in order to avoid
ponding. PV mounting systems and grade plans must be selected and designed given this
constraint. Such considerations should be taken into account when screening landfill
sites, selecting among PV technologies, and designing the final PV system.
5V. Yes. Is PV system compatible with
operation and maintenance of
leachate and landfill gas collection
infrastructure?
\
5W. No. PV may not be
viable. Read below for
additional information
and guidance.
5X. Yes. Will PV installation require
modifications to drainage patterns or
otherwise impact the storm water
management plan?
5Y. Yes. PV may not be
viable. Read below for
additional information
and guidance.
5Z. No. Go to
5 Load Assessment.
Phase 11.5: Site Screening - Landfill Considerations, Part 2
Question
Explanatory Text and Additional Resources
5P
All landfills are prone to settlement, but the type and magnitude of the settlement varies depending on landfill design, age, and composition of the waste materials. Uniform settlement refers to waste material decaying evenly,
resulting in the landfill cap settling at a similar rate over large areas. Differential settlement refers to material decaying at different rates throughout the landfill, resulting in an uneven surface. As a general rule, developers target
sites that have been capped for longer than 2-3 years due to the high rate of settlement expected after closure. If the landfill has exhibited uniform settlement in the past, the site may be viable. Settlement predictions will need to
be adjusted to account for effects on the settlement rate and/or pattern due to the PV system.
5Q
Differential settlement is a significant concern for landfill PV projects. This type of settlement may result in uneven stresses on the mounting system and foundations, causing potential structural issues and impacting system
performance due to misalignment. Consult a developer or civil engineer to evaluate feasibility concerns. If appropriate, go to Question 5R.
5R
Review the erosion control management plan and vegetative cover specifications in order to ensure compliance with post-closure plan requirements. During the proposal, design, and construction process, communicate these
requirements clearly in order to avoid compliance issues and costly rework.
5S
The design and specification of erosion control measures may be modified to include placement of PV foundations and support structures when using ballasted or shallow-poured foundations. As an alternative, the use of a PV-
integrated geomembrane can be investigated as a replacement for conventional erosion control and vegetative cover systems. If appropriate, go to Question 5T.
5T
Nearly all landfills incorporate the use of leachate and landfill gas collection and/or treatment systems. Both systems generally consist of a network of pipes imbedded through the waste material in the landfill cells. Obtain design
documentation for these systems to confirm that additional loading from a PV system will not exceed the bearing capacity of these systems.
5U
Investigate the use of light weight systems or alternate foundation designs that may distribute the PV system weight to an acceptable level. If appropriate, go to Question 5V.
5V
The infrastructure for leachate and landfill gas systems will also need to be taken into account when laying out the PV system to ensure that there is not physical interference and proper clearances are maintained for operation,
maintenance, and safety.
5W
Evaluate the impact of creating setbacks in specific portions of the landfill to avoid this infrastructure. If these considerations reduce the usable area below 2 acres, PV may not be viable.
5X
Review the storm water management plan incorporated into the landfill post-closure plan. Storm water management is closely tied to erosion control and vegetative cover systems. The landfill components are designed to (i)
absorb a portion of storm water runoff; (ii) convey additional runoff to retention ponds either at or below the surface. This system is designed to prevent channeling of storm water runoff which can lead to erosion and fissures in
the landfill cap.
5Y
Propose the development of an alternate storm water management plan that takes into account grading, fill, and compaction requirements for the PV system. Designing the storm water management and PV system as an
integrated system can result in considerable savings. As an alternative to a conventional mounting system, consider installing a PV-integrated geomembrane for use as a primary storm water management system on targeted areas
of the cap. If appropriate, proceed to 11.8 Site Screening - Load Assessment.
5Z
Continue to 11.8 Site Screening - Load Assessment
a Uni,ed States 7'""T M O f I
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Phase III. Financial Screening
RE-Powering America's Land Initiative
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Phase I. Pre-Screening
Solar Photovoltaic Decision Tree
Phase II. Site Screening
11.6 Considerations Related to Potential Contamination
6A. Has the site been assessed
for environmental
contamination?
Redevelopment in Parallel
While the decision tree can be used for
an entire site, it is applicable to a
portion of a site as well. When
evaluating sites, target areas that have
undergone remediation or are
potentially uncontaminated. These
portions may be fast-tracked for near-
term construction.
6B. Yes. Is remediation
complete or not required?
6H. No. Were there historical
uses that could have led to the
release of environmental
contamination?
For example:
- Dry Cleaner
- Auto Repair Shop
Plating Shop
Metal Finisher
Paint/Sign Shop
Ĥ Industrial / Manufacturing
6C. Yes. Category 1.
Ranking by Project Readiness
6D. No, in progress. Are
remediation activities
actively disturbing or going
to disturb the usable acreage
for PV?
6G. No, delayed or not started.
Category 3
f 61. No. From visual inspection, is
there evidence of potential
contamination?
For example:
- Construction & debris stockpiles
- Tire or trash dump sites
- Flazardous material storage
- Soil surface staining
- Railroad ties
- Battery stockpiles
^ Dilapidated infrastructure
6L. Yes. Category 5
6E. No. Category 1
6F. Yes. Category 2
6J. No. Category4
>
6K. Yes. Category5
>
Cat 1. Site assessed, and remediation is
not a barrier to near-term PV project.
Cat. 2. Site assessed, and remediation
must be completed prior to potential PV
project.
Go to 11.8 Load Assessment
7
Cat. 3. Site assessed but lacks active
remediation plan. Option to tailor
remediation plan for PV, if warranted.
Cat. 4. Site not yet assessed. Contaminants
may be present that need to be addressed.
Site conditions may pose fewer obstacles
to potential PV project.
Cat. 5. Site not yet assessed. Site
investigation and characterization is
required as a next step prior to further
scoping for potential PV project.
Go to 11.7 Remediation
See Appendix B for additional information.
Phase 11.6: Site Screening - Contaminated Land Prioritization
Question
Explanatory Text and Additional Resources
6A
A site assessment and characterization will identify need for future cleanup, which areas on the site may be excluded from redevelopment, and estimated usable acreage. To find information on potentially contaminated lands and
their status, check applicable Federal (EPA) and State online databases for siting listings and Project Manager contact information. The EPA maintains mapping tools to search for contaminated sites by region or by community at
www.eDa.sov/cleanuo. For state-managed sites, search databases through the applicable state Department of Environmental Protection. Local redevelopment agencies or land-use planning departments mav have additional
information on the site and/or whether an inventory of brownfields has been completed in the community. For community-scale evaluation of eligible sites, inquire about any brownfield grants from the State or EPA to determine
which sites may have already been assessed or cleaned up, but not yet redeveloped.
6B
Determine status of remediation work on site.
6C
If remediation has been completed or determined to not be required, the site can be ranked under Category 1. Go to 11.8 Site Screening - Load Assessment.
6D
For the targeted area, determine if remediation activities are expected to disturb the useable acreage for a period extending up to 20 years. For example, soil removal will need to be completed prior to initiating PV system
construction. Once the PV system is installed, it may be difficult to access the area beneath the mounting system.
6E
Based on planned remediation activities, the site can be ranked under Category 1; see Appendix B. Go to 11.8 Site Screening - Load Assessment.
6F
Based on planned remediation activities, the site can be ranked under Category 2; see Appendix B. Go to 11.8 Site Screening - Load Assessment.
6G
If remediation activities have not yet started or are delayed, the site ranks under Category 3; see Appendix B. Go to 11.7 Site Screening - Initiating Assessment and Remediation.
6H
If site characterization and investigation is not yet complete, begin this process prior to developing a solar resource at the site. This screening list gives general guidance on how the site can be prioritized for future redevelopment
with solar. Input from community stakeholders may also be helpful in understanding the site's historical uses, assessment prospects, and redevelopment priorities. Certain historical uses may be indicative of the type and extent of
contamination, as well as degree of difficulty to clean-up the site. For more information on site investigation and characterization, see EPA's tools and resources to assist in contaminated site characterization and monitoring:
www.epa.gov/superfund/remedvtech/char.htm or www.brownfieldstsc.org.
61
Based on observations from the site visit, note any signs of contamination on the site and document locations within usable acreage identified during Phase 1.2. Visible evidence of contamination may be an indicator of the extent of
remediation. An assessment will be required to determine the contaminants present.
6J
Given historic use of the site and visual observations, the site ranks under Category 4; see Appendix B. Go to 11.7 Site Screening - Initiating Assessment and Remediation.
6K
Given historic use of the site and visual observations, the site ranks under Category 5; see Appendix B. Go to 11.7 Site Screening - Initiating Assessment and Remediation.
6L
Given historic use of the site, the site ranks under Category 5; see Appendix B. Go to 11.7 Site Screening - Initiating Assessment and Remediation.
Cat. 1-5
See Appendix B for additional information and guidance on Contaminated Sites & Project Readiness
rn* United States K I D C I
Environmental Protection I ^1 I V L L_
~ Agency NATIONAL renewable energy LABORATORY
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Phase III. Financial Screening
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Phase I. Pre-Screening
Solar Photovoltaic Decision Tree
Phase II. Site Screening
11.7 Initiating Assessment & Remediation Potentially Contaminated Land Categories 3, 4, & 5
Remediation Plans Compatible with PV
7A. Does the site owner, developer, or lessee
meet requirements for liability protection
under CERCLA or obtained RCRA site-specific
liability protections through the EPA?
7B. No. Legal questions concerning liability for
clean-up may need to be resolved. Developers
ond/or lessees may need to clarify their liability
with EPA or state staff before proceeding.
Potentially Responsible Parties can pursue
redevelopment with renewable energy projects.
Additional technical support is available for
siting PV on such sites. Grants are not available
for sites on the EPA's National Priorities List.
7C. Continue to 11.8 Load
Assessment
7D. Yes. Is a government entity or non-
profit seeking funding to complete a site
assessment or remediation?
7E. No. Proceed with assessment and
remediation. Determine whether PV
installation can occur in parallel with
remediation activities.
7G. Yes. EPA grant opportunities may
be available. Continue to 11.8 Load
Assessment
7F. Continue to 11.8 Load
Assessment
Examples of Compatible Solutions
-Capping
- In Situ Bio Remediation
- Long-term Pump & Treat
- Monitored Natural Attenuation
- Permeable Reactive Barriers
- Soil Vapor Extraction
To reduce energy demands during remediation,
identify methods for increasing energy efficiency
and maximize use of renewable energy to power
site operations. EPA's Superfund Green
Remediation Strategy has a goal of using 100%
renewables for clean-up.
www.e pa. gov/su pe rfu nd/gree n re m ed ia tio n
Phase 11.7: Site Screening - Remediation
Question
Explanatory Text and Additional Resources
7A
Following an initial assessment seek legal counsel to make final determination with regard to liability in coordination with the appropriate EPA office.
There are two principle federal clean-up laws that govern contaminated sites: the Comprehensive Environmental Response, Compensation, and Liability Act (CERCLA) or the Resource Conservation and Recovery Act (RCRA). CERCLA
and RCRA liability considerations and protections for renewable-energy development projects are addressed in EPA's March 2011 publication entitled, "Siting Renewable Energy on Contaminated Properties: Addressing Liability
Concerns." Document No. EPA-330-F-11-001. For city-owned or to-be-acquired parcels, see EPA's March 2011 factsheet entitled, "CERCLA Liability and Local Government Acquisitions and Other Activities." Document No. EPA-330-F-
11-003.
7B
If the site owner, developer, or lessee does not qualify for conditions necessary to claim liability protection, contact the EPA for additional guidance on how to proceed with redevelopment plan for this site. Information and
resources are available through the RE-Powering America's Land Initiative (www.epa.gov/renewableenergvland/contacts.htm) or through the EPA Office of Enforcement and Compliance Assistance (www.epa.gov/compliance).
7C
Continue exploring project with knowledge that contamination issues may need to be resolved prior to redevelopment. Go to Phase 11.8 Site Screening - Load Assessment.
7D
In some cases, lack of funding has delayed site assessment. EPA and other grant opportunities may be available. For more information on brownfield assessment and clean-up grant opportunities for government entities and non-
profits, go to www.epa.gov/brownfields/grant info/index.htm
7E
Continue exploring project with knowledge that contamination issues may need to be resolved prior to redevelopment.
7F
Continue to Phase 11.8 Site Screening - Load Assessment.
7G
Proceed with grant application process. In parallel, continue site assessment. Continue to Phase 11.8 Site Screening - Load Assessment.
ğI-* J\ United States K| H C I
Environmental Protection I ^1 I x. La Lb
Agency national rcnewable tNtnov laboratory
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Phase III. Financial Screening
RE-Powering America's Land Initiative
z
Phase I. Pre-Screening
Solar Photovoltaic Decision Tree
Phase II. Site Screening
11.8 Load Assessment
8A. Is there an on-site load that
can use a substantial portion or all
of the electricity generated based
on the estimated system size?
8B. No. Is there a potential off-
taker for the electricity
generated? (e.g. utility or other
power producer)
8E. Yes. Is net metering
allowed by the local
utility?
Estimating System Size for Targeted Area IMBY Screens hots
Step 2. Adjust the inputs.
Based on the size and location of your
system IMBY suggests these inputs. To
change these values, enter your information
in the fields below. Help
Size (kW):
Derating:
Tilt angle (°):
Azimuth angle (°):
Data year:
a
8C. No. PV may not be
viable. Read below for
additional information
and guidance.
8D. Yes. Continue to
11.9 Financial Screening
8F. No. PV may not
be viable. Read
below for additional
information and
guidance.
Estimating System Size
8G. Yes. Is the average
retail price of electricity
greater than 8 cents/kWh?
8H. No. PV may not
be viable. Read
below for additional
information and
guidance.
81. Yes. Continue to
.9 Financial Screening
There are several publicly-available, online tools to help
you determine potential system size, production and
costs.
The U.S. Department of Energy created and maintains the
"In My Backyard" (IMBY) tool (www.nrel.gov/eis/imbv).
IMBY enables users to estimated the electricity that can
be produced with a solar photovoltaic (PV) array on a
given property.
After entering the site address and selecting technology
type, the user draws an area for the proposed system
location. Based on this information the tool returns an
estimated system size, assuming a fixed tilt PV system and
provides estimated energy production and basic financial
information.
This output will provide a good first pass at estimating the
potential for the site. NREL's PVWatts tool provides the
option to model addiitonal system configurations and
further refine energy production estimates
(www.nrel.gov/rredc/pvwatts).
Keep in mind that there may be capacity constraints in the
existing utility infrastructure. System owners will need to
engage with the local utility to discuss the project to
determine potential impacts and appropriate mitigation
measures.
Phase 11.8: Site Screening - Load Assessment
Question
Explanatory Text and Additional Resources
8A
For grid-connected systems, on-site power demands are important to consider but may not significantly impact the feasibility of a PV project. On-site power demands will drive the sale and finance structure, e.g. direct system sale
vs. power purchase agreement. For a community-scale evaluation, this criterion can be evaluated based on individual loads and generation capacity, as well as cumulative demand across community customers. For all facilities,
confirm that the facility is expected to be in use for the life of the system.
8B
If there is no on-site load, the electricity generated by the PV array will need to be fed onto the grid and sold to the utility at a wholesale rate, which is typically considerably lower than retail rates.
8C
If there is neither an on-site load or potential offtaker for the electricity, PV may not be viable at this site. It is recommended that you engage directly with the utility to determine if there is interest or other incentives that would
compel the utility to purchase power from a renewable source.
8D
Continue to III.9 Financial Screening
8E
Determine if the local utility has a net metering program, which encourages development of PV and other renewable energy systems by allowing customers to offset on-site energy requirements.
8F
If the onsite load does not require 100% of the power generated and net metering is not an option, the project economics may not be favorable enough to proceed. Consider scaling the renewable energy project down to meet on-
site requirements only; proceed to Phase III.9 Financial Screening. Alternatively, consider selling power directly back to the utility at wholesale rates; go to 8B.
8G
If the average price of electricity is greater than 8 cents/kWh, solar PV may be economically feasible in this location. Typically, solar PV makes the best economic sense when it is being installed in an area where other energy costs
are relatively high. The levelized cost of electricity (LCOE) is calculated by dividing the total system costs by the estimated lifetime production, yielding $/kWh, Using LCOE allows PV to be compared to other energy production
sources, including existing retail electricity rates. Generally, as retail electricity rates increase, the economics of a renewable energy project greatly improve.
8H
The economics of solar PV is greatly reduced when the retail electricity rate is very low. If there are incentives or other monetary and/or non-monetary benefits associated with installing solar PV at this site or if considering an off-
grid system, continue to Phase III.9 Financial Screening. As an alternative, consider selling power directly to the utility at a wholesale rate; proceed to 8B if appropriate.
81
Go to Phase III.9 Financial Screening
i-rğA Uni,ed S,ates K| D PI
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~
~ Phase 1. Pre-Screening
>
Phase II. Site Screening
>
Phase III. Financial Screening ^
1.9 Financial Screening
9A. Is there strong policy support
for renewable energy
development? Specific PV
incentives?
9B. No. PV may not be
viable. Read below for
additional information and
guidance.
9C. Yes. Can the site owner capture
one or more of government or
utility-based incentives available for
PV?
Note: Incentives maybe available at
federalstate, and local levels.
9D. No. Consider leasing the site and
partnering with a private entity to own the
system in order to take advantage of
available incentives.
V
Scaling Up Collaborative Procurement
After completing a community-scale evaluation, the municipal,
regional, or other local entity may serve as a catalyst for developing
collaborative procurement partnerships among interested owners of
eligible sites. Sites should be bundled separately based on public or
private ownership, as the development model will differ to take
advantage of incentives.
Collaborative procurement among neighboring communities or
within a geographic region can reap significant benefits by leveraging
shared resources, reducing system costs, and infusing the economy
with jobs during the design, construction, and operation phases of
the project.
9E. Yes. The site appears to be a £
candidate for redevelopment with a PV
system. Move forward with the project by
issuing an RFP to receive bids from
renewable energy developers.
PV System Price & Project Economics
The PV market has seen significant reductions in system pricing due to emerging market conditions.
The system price is typically expressed in dollars per Watt ($/W). Generally, prices range from less
than $8/W for small systems (50 kW) to $4-5/W for larger systems (MW).
Renewable energy installation costs vary by site. Lifetime system costs are a function of many
variables, and can be influenced by location, resource potential, land-use restrictions, interconnection
upgrades, and availability of installers within a particular area.
Project economics are assessed based on common economic measures (net present value and
payback period), as well as the levelized cost of electricity (LCOE) compared to existing and projected
electricity costs.
The U.S. Department of Energy created and maintains the "System Advisor Model" (SAM) tool, which
enables users to calculate LCOE and other performance and economic metrics for PV, concentrating
solar power, solar water heating, wind, and geothermal systems, https://sam.nrel.gov. When
evaluating system prices, additional support may be available through NREL's Technical Assistance
Program.
$8.00
Q12010 Q2 2010 Q3 2010 Q4 2010 Q12011
Q2 2011
Source: U.S. Solar Market Insight 2nd Quarter 2011, Solar Energy Industries Association
Question
Explanatory Text and Additional Resources
9A
Strong state and federal policy support for renewable energy development can be critical to the overall feasibility and economic viability of a solar PV project. Strong state policies can support renewable energy development by
promoting market demand, providing certainty in the investment market, and incorporating the external benefits of the technologies into cost/benefit calculations. The economic feasibility of solar PV depends on incentives, the
cost of electricity, and the renewable resource. Targeted state and local incentives can provide a combination of low cost loans, grants or tax incentives to reduce the startup and operating costs of PV installations. Combined with
federal programs, such as the Federal Investment Tax Credit, state incentives significantly decrease the cost of installing PV.
If you are unsure of the policies and incentives available in your state to support renewable energy development and redevelopment of contaminated lands, check with the Database of State Incentives for Renewables and
Efficiency (DSIRE) at www.dsireusa.org. To further explore the critical role of state policy in support of renewable energy development, please see NREL's Conference Paper "The Role of State Policy in Renewable Energy
Development" at www.nrel.gov/analvsis/pdfs/45971.pdf.
9B
Without strong policy support for renewable energy development at the federal, state, or local level, a solar PV project may be economically impractical.
9C
The ownership structure has a significant impact on the incentives available for the project, therefore significantly impacting the overall cost of the PV system. The system owner will be the eligible entity able to capture various
federal, state, and local incentives. See Appendix D for a table of available federal incentives by eligible entity type. For information at the state level, use the Database of State Incentives for Renewables and Efficiency website:
www.dsireusa.org.
9D
Explore options for partnering with a private entity which will enable use of more federal, state and local incentives. For example, financing through a power purchase agreement enables capture of many incentives for which public
site owners may not otherwise be eligible. For additional information on PPAs, see NREL's "Power Purchase Agreements Checklist for State and Local Governments" at www.nrel.gov/docs/fvl0osti/46668.pdf.
9E
Congratulations! This site or bundle of sites appears to be a good candidate for redevelopment with solar PV. Based on the desired ownership and financing model, issue a Request For Proposals (RFP) that includes information
compiled during the site screening process and detailed information about the site (topo maps, soils reports, etc.). Solar PV pricing continues to evolve with market conditions. It is recommended to obtain multiple bid proposals.
Once the renewable energy system is deployed, consider joining EPA's Green Power Partnership to communicate your organization's leadership in green power production to key stakeholders (www.epa.gov/greenpower).
The RE-Powering initiative offers additional resources to facilitate implementation of PV on contaminated land. Take advantage of these resources at www.epa.gov/renewableenergyland.
oEPA
United States
Environmental Protection
Agency
NREL
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Phase I. Pre-Screening
Solar Photovoltaic Decision Tree
Phase II. Site Screening
14 of 18
Phase III. Financial Screening
Appendix A. Smart Growth Objectives
Criteria for Smart Growth Objectives
EPA's Smart Growth program promotes visioning forums that inform communities on the benefits
associated with transit-oriented development in locations that are ideally suited for infill residential or
commercial redevelopment.
Sites that meet all or the majority of the following criteria may be considered to have excellent (E) or
good (G) location-based Smart Growth potential for redevelopment, e.g. residential, office, or retail use.
NOTE: While quantitative criteria are used, this is not an official or comprehensive rating system but
rather guidance to help users make qualitative judgments. These criteria can be addressed with
information available through either Google GIS maps or local land use planning resources. For example,
it does not take into account local zoning restrictions that may apply, how well the existing street
infrastructure accommodates pedestrian and bicyclist safety and attractiveness, or other potential
barriers to site redevelopment.
Criteria
"Yes"
Rating
1. Location adjacent to existing infrastructure including water & sewer lines
1. Is site located < 1/2 mile from existing water & sewer infrastructure?
G
2. Is site located < 1/4 mile from existing water & sewer infrastructure?
E
II. Road network layout
1. Is site located in an interconnected road system or on an existing street that is
interconnected?
Indicators of an interconnected road system include frequent street intersections per mile
and a high percentage of 4-way intersections. In contrast, less well interconnected road
systems have a predominance of cul-de-sacs and few parallel routes.
E/G
III. Walkability (continuous sidewalk)
1. Is there a continuous existing, walkable sidewalk within 1/8 mile radius of the site?
E
2. Is there a walkable sidewalk within a 1/4 mile radius of the site (even if not immediately
adjacent to the site)?
G
IV. Walkability (block size)
1. Is the block size (distance between intersections) within a % mile radius of the site < 400
feet long (or, for non-rectangular blocks, is the total perimeter of street circling the site no
greater than 1600 feet)?
E/G
V. Transit Friendly
1. Is a bus commuter and/or rail line located less than 1/4 mile from the site?
E
2. Is a bus commuter and/or rail line located within a 1/2 mile of the site?
G
VI. Mixed Land Use Area
1. Is there a diversity of retail, commercial, residential, etc. uses at or in the vicinity of the
site, e.g., within 1/4 mile? Mixed-use development, for example, might include retail-
commercial on the first floor of a building or along major streets, with residential households
located above the first floor and along side streets.
E/G
VII. Public/Open Spaces
1. Is a park or other public space located < 1/8 mile from the site?
E
2. Is a park or other public space located > 1/8 mile from but < 1/2 mile from the site?
G
VIII. Access to major institutions
1. Are major city social, retail, commercial, and other (schools, churches, etc.) located < 1/4
mile from the site?
E
2. Are major institutions generally located > 1/4 mile but < 3/4 mile or less from the site?
G
Criteria
IX. Bike Route
"Yes"
Rating
L Is there an existing bike route < 1/4 mile from the site?
2. Is there an existing bike route > 1/4 mile but < 3/4 mile from the site?
X. Community revitalization area
1. Is the site located along a commercial strip corridor undergoing a local planning
revitalization process or restructuring review?
2. If the answer to 1 is YES, is the site also located at or close to a crossroad identified in
the local planning process or in an economic market analysis as particularly favorable to
retail development, i.e., a "retail centered location"?
References: The following documents were used as source material to create this qualitative
assessment tool.
1. "Smart Growth for Brownfields Redevelopment: A Brownfields Screening Tool," prepared by
GSG Consultants for the City of Chicago, May 2005. www.epa.gov/dced/publications.htm
2. "Restructuring the Commercial Strip: A Practical Guide for Planning the Revitalization of
Deteriorating Strip Corridors," prepared by ICF International and Freedman, Tung & Sasaki, 2010,
Section 2. www.epa.gov/dced/publications.htm
3. Smart Growth Project Scorecard, Smart Growth Leadership Institute, December 15, 2007.
www.sgli.or g/too I k i t/too I s/sco r eca r d. pd f
4. Smart Growth Project Scorecard samples, www.epa.gov/smartgrowth/scorecards
rn* United States K I D C I
Environmental Protection I ^1 I V L L_
~ Agency NATIONAL renewable energy LABORATORY
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Phase I. Pre-Screening
Solar Photovoltaic Decision Tree
Phase II. Site Screening
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Phase III. Financial Screening
Appendix B. Contaminated Sites & Project Readiness
Ranking by Project Readiness
Category
Status Description
Explanatory Text and Additional Resources
1
Site assessed, and remediation is not a barrier to near-term PV project.
Site conditions are conducive to installing a solar system in the near-term. There may be institutional or
engineering controls in place that may limit or restrict on-site activity and/or end use, especially if remediation
included leaving waste in place. See 11.7 for examples of remediation plans compatible with PV installations.
2
Site assessed, and remediation must be completed prior to potential PV project.
Site conditions are conducive to installing a solar system following completion of remediation activities. Check
the remediation plan to determine when remediation activities will be completed.
3 Site assessed but lacks active remediation plan. Option to tailor plan to potential PV
project, if warranted.
Sites in Category 3 could be experiencing delays or inactivity for a number of reasons. The next step is to contact
the site's Project Manager to check into the reason(s) behind the delay. Consider whether the potential for a
solar installation would present a re-use alternative that addresses the reason for delay or inactivity in taking the
next step towards remediation.
4
Site not yet assessed. Contaminants may be present that need to be addressed. Site
conditions may pose fewer obstacles to potential PV project.
There may be sites in Categories 4 and 5 that are well suited for solar and should not be overlooked. Several of
these sites may be low priority for residential or commercial redevelopment, which could explain why they have
not yet been assessed. However, the prospect of re-purposing the site for a solar project may trigger interest to
pursue funding for a site investigation.
A site investigation determines whether there is a release of environmental contamination and, if so, the extent
of the contamination. These investigations help eliminate the uncertainty associated with potential or actual
contamination at a property. In some cases, clean-up may not be required.
This site investigation and cleanup cost analysis can be structured to include a comparison of cleanup costs that
would be necessary to re-purpose the site to solar versus other potential redevelopment re-uses that may incur
larger cleanup costs. See Appendix C. Site Characterization Checklists for characteristics that would make a site
ideal for siting a solar project.
5
Site not yet assessed. Contaminant investigation and characterization is required as a next
step prior to further scoping for potential PV project.
JV United States
Environmental Protection
m m Agency
HNREL
NATIONAL RENEWABLE ENERGY LABORATORY
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Solar Photovoltaic Decision Tree
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Phase III. Financial Screening
Phase I. Pre-Screening
Phase II. Site Screening
Appendix C. Site Characteristics Checklists
Quick Guide
These checklists are designed to serve as a quick reference tool to screen landfills or potentially
contaminated sites for near-term project implementation. These checklists are not
comprehensive and are not meant as a substitute for use of the decision tree to screen sites.
Landfills
0
- Capped & closed (at least the portion being evaluated for solar); OR
- Capped & pre-remedy; closure plan can readily incorporate solar installation; OR
- Uncapped & pre-remedy; solar installation can serve as a cap
s
- Owner abandoned & no incentive for private redevelopment
- Site available for lease; does not need to be purchased by a developer
- Site does not have an expensive or short-term lease arrangement
h
Landfill closed more than 2-3 years prior to planned construction start and has not
experienced differential settlement
0
Solar installation compatible with site's long-term monitoring and maintenance plan,
including leachate and gas collection systems, erosion control and storm water
management plans
Site definitions
Potentially Contaminated Site: Sites where contamination is suspected but has not been confirmed
and sites where contamination has been identified.
Brownfield: Typically a site that may have (or be perceived to have) contamination issues. With
certain legal exclusions and additions, the term "brownfield site" means real property, the
expansion, redevelopment, or reuse of which may be complicated by the presence or potential
presence of a hazardous substance, pollutant, or contaminant.
Underutilized Spaces'. Sites that are currently inactive and can be leveraged for additional benefit,
e.g. abandoned parcels, parking lots, or commercial/industrial rooftops.
Potentially Contaminated Sites Pre-Remediation
0
0
-Assessment determines that levels of contamination do not pose unacceptable risk to
human health and the environment; OR
- Historic uses not likely to have caused significant contamination requiring expensive
- Cleanup costs to redevelop site to residential or commercial space are prohibitive but
would not be for solar reuse AND site otherwise meets all other solar eligibility criteria
0
Usable acreage for solar at site is currently underutilized, inactive, or undisturbed
0
-Site redevelopment plan supports renewable energy; OR
-No site redevelopment plan in place and site not otherwise a priority for redevelopment
for alternate uses
Contaminated Sites During Remediation
0
Remediation/cleanup will not require site surface to be actively disturbed or active
disturbance limited to a small portion of usable acreage for solar
0
Design and construction of PV system can be created in parallel with development and
implementation of remedy
Contaminated Sites Post-Remediation
0
PV system will not compromise remediation solution in place during construction or
operation phase
0
Zoning or other institutional controls limit redevelopment for residential, commercial, or
recreational uses AND allow for redevelopment for renewable energy
JV United States
Environmental Protection
m m Agency
HNREL
NATIONAL RENEWABLE ENERGY LABORATORY
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Phase III. Financial Screening
RE-Powering America's Land Initiative
3
Phase I. Pre-Screening
Solar Photovoltaic Decision Tree
Phase II. Site Screening
19
Appendix D. Examples of Federal Incentive Programs
Incentive Program / Description
Eli
gible Sectors
Investment Tax Credit (ITC)
X
X
X
X
Production Tax Credit (PTC)
X
X
X
Residential Energy Conservation
Subsidy Exclusion (Corporate)
X
Modified Accelerated Cost-
Recovery System (MACRS)
X
X
X
Tribal Energy Program Grant
X
USDA- High Energy Cost Grant
Program
X
X
X
X
X
X
USDA - Rural Energy for America
Program (REAP) Grants
X
X
X
X
X
X
X
USDA - REAP Loan Guarantees
X
X
Clean Renewable Energy Bonds
(CREBs)
X
X
X
X
X
Qualified Energy Conservation
Bonds (QECBs)
X
X
X
Qualifying Advanced Energy
Manufacturing Tax Credit
X
X
X
Renewable Energy Production
Incentive (REPI)
X
X
X
X
X
X
rn* United States K I D C I
Environmental Protection I ^1 I V L
~ Agency national renewable energy LABORATORY
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Phase III. Financial Screening
RE-Powering America's Land Initiative
Phase I. Pre-Screening
Solar Photovoltaic Decision Tree
Phase II. Site Screening
K
Appendix E. Examples of State & Local Incentive Programs
State Incentives
PV Incentive Programs
Tax Increment Financing (TIF)
State tax credit
3rd party solar power purchase agreement (PPA) policies
State Grant
Interconnection Standards
Loan Program
State-wide feed-in tariff (FIT) for renewable energy
Property Tax Incentive
Public Benefits Fund
Production Incentive
Rebate Program
Sales Tax Incentive
Clean-Up Programs
Clean-Up Loans
Revolving Loan Funds
Reimbursement for Orphan Shares
Underground Storage Tank (UST) Clean-up Fund
Local Incentives
Revolving Loan Fund
Loan Program
Tax rebate (Commercial and/or Residential)
Renewable Energy Feed-in-Tariff (FIT)
Incentive Program Information
For eligibility information for state incentives, see the Database for State Incentives for
Renewables and Efficiency. This online database serves as a comprehensive repository on
incentive programs on a state-by-state basis. In some cases, local programs are also listed, e.g
feed-in tariff (FIT )programs through a specific utility.
www.dsireusa.org
rn* United States K I D C I
Environmental Protection I ^1 I V L L_
~ Agency NATIONAL renewable energy LABORATORY
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