ARIZONA WIND AND SOLAR
STATUS REPORT 2013
Cara Corbinmeyer, Robert Douglass, Karin Wadsack

Table of Contents

Overview of Arizona Wind and Solar Status Report 2013 .................................................................................................. 3
Introduction ........................................................................................................................................................................ 3
Renewable Energy Technologies ........................................................................................................................................ 8
Jobs and Economic Development Impact (JEDI) Modeling Summary .............................................................................. 10
Economic Impacts ......................................................................................................................................................... 10
The JEDI model ......................................................................................................................................................... 10
Basics of economic impacts and input-output modeling ......................................................................................... 10
Impacts of renewable energy development in Arizona............................................................................................ 11
Model validation ....................................................................................................................................................... 12
Arizona Wind and Solar Resource Maps........................................................................................................................... 13
Installed and Proposed Capacity Maps (Counties) ........................................................................................................... 14
Apache County.................................................................................................................................................................. 18
Cochise County ................................................................................................................................................................. 19
Coconino County .............................................................................................................................................................. 20
Gila County ....................................................................................................................................................................... 21
Graham County................................................................................................................................................................. 22
Greenlee County ............................................................................................................................................................... 23
La Paz County.................................................................................................................................................................... 24
Maricopa County .............................................................................................................................................................. 25
Mohave County ................................................................................................................................................................ 27
Navajo County .................................................................................................................................................................. 29
Pima County...................................................................................................................................................................... 30
Pinal County ...................................................................................................................................................................... 31
Santa Cruz County............................................................................................................................................................. 32
Yavapai County ................................................................................................................................................................. 33
Yuma County..................................................................................................................................................................... 34
AK Chin Indian Community ............................................................................................................................................... 35
Cocopah Tribe ................................................................................................................................................................... 36
Colorado River Indian Tribes ............................................................................................................................................ 37
Fort McDowell Yavapai Nation ......................................................................................................................................... 38
Fort Mojave Tribe ............................................................................................................................................................. 39
Gila River Indian Community ............................................................................................................................................ 40

Havasupai Tribe ................................................................................................................................................................ 41
Hopi Tribe ......................................................................................................................................................................... 42
Hualapai Tribe................................................................................................................................................................... 43
Kaibab Paiute Tribe ........................................................................................................................................................... 44
Navajo Nation ................................................................................................................................................................... 45
Pascua Yaqui Tribe ............................................................................................................................................................ 46
Salt River Pima-Maricopa Indian Community ................................................................................................................... 47
San Carlos Apache Tribe ................................................................................................................................................... 48
Tohono O’Odham nation .................................................................................................................................................. 49
Tonto Apache Tribe .......................................................................................................................................................... 50
White Mountain Apache Tribe ......................................................................................................................................... 51
Yavapai Apache Nation ..................................................................................................................................................... 52
Armed Forces Bases in Arizona......................................................................................................................................... 53
United States Marine Corps ........................................................................................................................................ 53
Department of the Air Force........................................................................................................................................ 53
Department of the Army ............................................................................................................................................. 54
Army National Guard ................................................................................................................................................... 54
Appendix A: Additional JEDI Modeling Details ................................................................................................................. 55
Appendix B: Additional Resources .................................................................................................................................... 58

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Overview of Arizona Wind and Solar Status Report 2013

This report details utility-scale renewable energy projects on Arizona’s public, private, Native American, and military
land. Utility-scale is defined as all projects greater than one megawatt. For each county, Native American tribe, and
military jurisdiction, details are presented on the size, technology, and status of projects. For areas where there
haven’t been any utility scale developments, we outline the priorities for renewable energy development and in some
cases highlight smaller-scale installations. This information was gathered through direct contact with government
employees, tribal members, and online searches. Here are some of our major findings:
•
•
•
•
•

There are 1,460 megawatts (MW) of utility-scale renewable energy operating and under
construction in Arizona: 1,137 MW of solar; 288 MW of wind; and 35 MW of biomass/biogas energy.
Maricopa County leads the counties in solar development with 566 MW of projects completed or
under construction.
The Dry Lake wind farm in Navajo County is the largest wind farm in Arizona with 127 MW capacity.
There have not been any utility-scale renewable energy projects on tribal lands, yet there have been
a number of smaller scale projects, feasibility studies, and other pre-development work toward
utility-scale installations.
Each branch of the military has internal goals for increasing the percentage of renewable energy it
uses. Only a few projects have been realized thus far.

This report begins with a general introduction to renewable energy development in Arizona, a summary of market
trends, updates on regulatory issues, and a discussion of the environmental impacts of renewable energy
development. Additional sections include technological descriptions of the differing renewable energy generators,
modeling of economic impacts from renewable energy development, resource maps, installed capacity maps, and
appendices that include additional resources and links to permitting guidelines.
Throughout the report, projects are defined as either proposed, under development, under construction, or
operating. Proposed projects have been proposed to the public by developers through press releases or
presentations to government institutions. Projects that are under development are going through the permitting
process and/or seeking additional funding or developers. Proposed and under development projects may or may not
ever be realized. Under construction means the projects have broken ground and are in the process of being built.
Finally, operating projects have been completed and are currently generating and selling electricity.
For each jurisdiction detailed in the report, the population, size and median household income is provided. This
information was found through The United States Census Bureau and demographic analysis done by Northern Arizona
University and The Arizona Rural Policy Institute. The area of the state of Arizona is 113,594 square miles, and the
median household income statewide is $50,256.
NOTE: This product is for informational purposes and is not considered complete. It has not been
prepared for, nor is it suitable for legal, engineering, or surveying purposes. Users of this information
should review or consult the primary data and information sources to ascertain the usability of the
information. There are no warranties, expressed or implied, including the warranty of merchantability
or fitness for a particular purpose, accompanying this product. This report is current as of 12/31/13.
Acknowledgements:
The Institute for Sustainable Energy Solutions would like to thank our many partners who assisted us with this project,
including all of the tribal partners, military personnel, and city and county staff members. We would like to thank the
Landscape Conservation Initiative for their funding and collaboration to develop the excellent maps within this report.
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Introduction

Background. In 2013, was among the top producers of electricity from
renewable sources in the United States, most notably from solar. The state’s
Renewable Energy Standard and Tariff (REST), established in 2006, fostered
demand for renewable energy projects; a number of large, longer-term
projects were completed; and the successful completion of earlier wind and
solar projects facilitated new developments. For its electricity generation
statewide, however, Arizona continues to rely largely on coal, natural gas,
and nuclear power.
This report is an update to the 2009 and 2011 Arizona Wind and Solar Status
Reports, conducted by Northern Arizona University’s Landsward Institute
and Institute for Sustainable Energy Solutions. Building on past reports, this
work attempts to track and map all utility-scale renewable energy projects
throughout the state. Our 2013 research found that the total utility-scale
installed and under construction capacity stands at 1,137 MW for solar and
288 MW for wind. An additional 7,133 MW (solar and wind combined) have
been proposed or are under development statewide, yet may never be

Figure 1. State Ranking by Solar Capacity.
Source: SEIA and GTM 2013

completed.
Trends in Wind & Solar. Solar development has
outpaced the development of wind for a number of
reasons. Clearly, there are abundant solar resources in
Arizona, which are stronger and more reliable yearround than the state’s wind resources. This fact, along
with policy incentives provided at the state and local
level, has turned Arizona into a hub for solar energy
innovation and development. National and foreign
companies have been drawn to Arizona to pursue
research, manufacturing, and project development. Net
metering has supported strong growth for solar
distributed generation (DG) for Arizona’s residential
and commercial buildings. These factors have
Figure 2. US Map of Total Installed Wind Capacity.
Source: National Renewable Energy Lab, 2013
propagated over 100 significant manufacturing,
1
development, and construction companies in the
region whose work is focused at least in part on renewable energy technology or development. Undeveloped,
relatively flat land ideal for solar development is abundant and comparably inexpensive in Arizona. Furthermore,
some farmers are finding it economical to sell or lease their farm land, with associated water rights, to solar
developers. Many state policymakers, including the Governor, recognize the potential economic benefits of becoming
a renewable energy development hub. For all these reasons, Arizona has become a leader in solar development.

1

See http://www.azcommerce.com/industries/renewable-energy

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In contrast, wind energy development has grown more slowly. Arizona’s wind resource is not as strong or consistent
as that in neighbor states. Some aspects of the permitting process for wind farms are more complicated and can take
longer due to the fact that wind farms might cross several permitting jurisdictions, in addition to general concerns
over avian and bat populations, visual impacts, and proximity to populations. Statewide wind modeling efforts,
collaboration by environmental protection agencies at different jurisdictional levels, and the establishment of
policies, guidelines, ordinances, and other guiding documents are all factors that help to accelerate the development
of wind projects in Arizona.
Notable Solar Projects. There are a number of notable concentrated solar power (CSP) and photovoltaic (PV) projects
that came online in 2013. The Solana Generating Station in Maricopa County, completed in October 2013, is a CSP
parabolic trough with generating capacity of 280 MW and storage capability to allow it to produce electricity into the
night. APS will purchase 100 percent of the electricity produced. The Agua Caliente Solar Project located outside of
Yuma is currently under construction and will be the world’s largest PV plant connected to the grid when completed,
with capacity to generate 290 MW. This is being developed by First Solar, a Tempe-based manufacturer and
developer of solar energy.
Notable Wind Projects. The Dry Lake I and II, Western Wind, and Perrin Ranch wind farms are the three operational
wind farms in Arizona. In addition, the Red Horse 2 wind farm is under construction. These have a total generation
capacity of 287 MW. Another 1 MW turbine is located on the Fort Huachuca Army Base. There are other projects that
are approved or under development across the state. For example, the Bureau of Land Management (BLM) is moving
forward to approve 2 the Mojave County Wind Farm, which will consist of as many as 243 turbines with 500 MW of
total generating capacity.
Other Renewable Energy Projects. Arizona also utilizes other renewable energy sources. Biomass and biogas have
potential throughout the state. Geothermal has potential, but to a lesser extent because the geothermal wells are at
a lower heat than needed for electricity production. Nevertheless, there have been some direct geothermal
applications for aquaculture, heating systems, and farming. There are two biomass plants and two biogas plants in the
state. The Snowflake biomass power plant is the largest in the state with operational capacity of 25 MW. After a brief
closure in 2013, the plant is set to restart soon after being sold to Novo Power LLC. A 2.8 MW biogas facility is
operating in the city of Glendale and is powered by the methane captured from the landfill. Another biogas plant that
is being proposed in Glendale by Vieste Energy and Abengoa, a Spanish renewable energy company, would utilize
waste-to-energy technology. This plant would gasify 180,000 tons of trash annually to produce 350 tons of gas a day
to be burned to generate 15 MW of electricity.
Permitting. All renewable energy development projects must comply with applicable state, federal, and tribal laws,
and with the guidance or regulations of the governing bodies having jurisdiction in the area of development. The state
has 15 counties with differing or nonexistent rules for wind and solar development, and also is home to nearly two
dozen federally recognized Native American tribes. The checkerboard layout of Arizona land means that there are
often differing permitting processes for different projects across the state, and some projects must obtain multiple
permits from different jurisdictions. As an example during Phase I the Dry Lake Wind Farm developer obtained
Conditional Use and construction permits from Navajo County, a Right of Way from the State Land Department, and a
Right of Way from the Bureau of Land Management. References to permitting guidelines are provided in an appendix
to this report.
2

http://www.doi.gov/news/pressreleases/secretary-jewell-announces-approval-of-major-wind-energy-project-on-publiclands-in-arizona.cfm

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Native American Communities. To date, there have not been any utility scale renewable energy projects constructed
on tribal lands in Arizona. Several tribes have performed resource assessments and other feasibility work for utilityscale wind and solar development, including the Hualapai Tribe, Navajo Nation, Hopi Tribe and Fort Mojave tribe.
Developers and tribes have been working for many years to address challenges with permitting, land ownership, and
project ownership arrangements. There are a number of smaller scale projects, from solar street-lighting to facilityscale renewable energy systems, installed in tribal communities across Arizona. Many of these provide renewable
energy in places where there is no grid connection or where the renewable backup power contributes significantly to
reliability of power or reduction in energy costs for tribal governments.
Market Trends. The cost of solar and wind installations continues to fall. The Department of Energy’s (DOE) 2012
Wind Technologies Market Report 3 indicated the cost of a wind farm installation, including turbine and installation,
balance of plant costs, and any substation and interconnection costs, was around $1,940/kW in 2012; a $300/kW
reduction since 2009/2010. According the Solar Energy Industries Association (SEIA) the cost of solar installations also
continues to decrease. Utility-scale solar system prices averaged around $2,070 per kW, yet the costs vary widely
depending on technology, location, and other factors on a project-by-project basis. These costs, along with operations
and maintenance costs, capacity factors, development costs, transportation costs, siting and permit requirements,
and construction costs and market conditions affect the Power Purchasing Agreement (PPA) pricing – the price at
which wind and solar developers sell their electricity to utility companies. In 2012, the west had the highest average
PPA price for wind in the country, at $50 - $90 per MWh, whereas the national average was $40 per MWh.
Regulatory uncertainty has affected market stability in Arizona and the US as a whole. The Production Tax Credit
(PTC), a 2.3 cent / kWh federal income tax credit, was due to expire in 2012, but was extended to the end of 2013,
allowing all projects beginning in 2013 to collect on this tax incentive. The lack of long-term stability for this incentive
creates uncertainty for the industry over time. The Business Energy Investment Tax Credit (ITC) provides tax breaks
for up to 30% of the costs of installing solar, small scale wind, and other renewable energy technologies. The ITC has
fueled growth in the solar sector, but will decrease significantly in 2017, which creates uncertainty, but also provides
some time to build economies of scale, enhance efficiency, and plan for a market without the credit.
Renewable Energy Standard. Since 2006, the Arizona Corporation Commission (ACC) has enforced the Renewable
Energy Standard and Tariff (REST). The REST mandates that investor-owned utility companies, and electric co-ops
serving more than half of their retail customers in Arizona, generate 15% of their electricity from renewable sources
by 2025. The required renewable energy generated as a percentage of total produced electricity increases
incrementally each year. Out of the REST mandate for each year, 30% must be met by distributed generation (DG)
sources. In 2013, the standard was set at 4%, and increases to 4.5% during 2014. To meet the standard, the utility
companies must retain or obtain renewable energy credits (RECS) to represent the renewable energy attributes of
eligible projects. The increasing percentage of this and other neighboring states’ standards creates demand for
continued development of renewable energy in the region. As of the 2012 compliance reports, the major Arizona
utility companies have been meeting the REST requirements. APS had reported that 5.3% of total electricity retail
sales came from renewables and exceeded the residential and nonresidential DG by 131% and 206% respectively. TEP
reported similar figures; 5.2% of total retail electricity sales from renewables and 118% of residential and 205%
nonresidential of the standard has been met.
Net-metering and Deregulation. In 2013, two major issues in electricity market regulation were addressed by the
ACC. First they opened a discussion docket on the topic of electricity market deregulation. A deregulated electricity
market would create competition among utilities, by allowing consumers to select which company provides their
3

http://emp.lbl.gov/publications/2012-wind-technologies-market-report

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electricity. This could have pushed electricity prices down as consumers sought out the cheapest options, or allowed
consumers to choose providers based on other criteria such as who has the largest mix of renewables. The ACC
docket accepted comments on deregulation’s potential impact from all interested parties. The ACC ultimately voted
not to pursue deregulation at this time, maintaining the current utility service structure in Arizona. The second debate
concerned net-metering. Arizona Public Service (APS) submitted a proposal for the ACC to amend the net-metering
and distributed energy policy. APS asserted that because the costs of maintaining transmission and distribution
systems are included in the cost of kWh that customers purchase, infrastructure and other fixed costs are shifted
from those with distributed energy systems to other consumers.
To right this perceived wrong, APS proposed adding a monthly charge of $50-$100 to homes with DG installations.
This could have had a crippling effect on rooftop solar and other distributed energy generating markets in Arizona, as
they would have been made less economically feasible. The ACC rejected the large fees, instead opting for a $0.70 fee
per month for each kW of DG capacity that the customer had on site.
Environmental Issues. A number of environmental costs and benefits are weighed in decisions made regarding
renewable energy development. Most renewables do not emit any CO2, the leading cause of climate change, during
the production of electricity. For a kWh of renewable energy that is produced in place of natural gas and coal,
respectively, 1.2 lbs. or 2.2 lbs. of CO2 emissions are avoided. Thus, a 5 MW solar PV installation with a 20% capacity
factor (average for Arizona), displaces 19.3 million lbs. of CO2 that would have otherwise been released into
atmosphere if the electricity were generated from coal. Also, avoiding the need for coal or natural gas also mitigates
the environmental damages associated with coal mining and hydraulic fracturing.
There are environmental concerns related to the manufacturing, construction, and operation of renewable energy
facilities as well. In the southwest in particular, the use of and planning for water resources is extremely important.
Wind and solar PV use almost no water in their operation, while CSP technologies continue to use steam generators
and thus water for plant cooling. Renewable energy technologies also impact certain wildlife species. The habitat
areas of Desert Tortoises, an endangered species, and other desert animals and plants, are subject to destruction,
damage or fragmentation by large-scale solar developments. A number of avian and bat species, including the
federally protected Golden Eagle, are put at risk by wind plants being developed in areas where they roost or migrate.
Increased awareness of risk, through pre-construction monitoring, and mitigation practices during and after
construction, have been put in place to minimize these environmental costs.

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Renewable Energy Technologies

Photovoltaic (PV) solar panels convert sunlight directly into electricity. The solar panels
are made up of a number of solar cells that contain the photovoltaic materials. These
systems have no moving parts, which distinguishes them from other renewable
technologies. Instead, the photons from sunlight are captured within the solar cells,
which excite electrons to generate an electric current. The lower costs, compactness,
and low maintenance make solar PV systems one of the most widely dispersed
renewable energy technologies.

Concentrated Solar Power (CSP) uses the thermal energy from the sun to generate electricity. This typically involves
heating a substance that powers an electricity-producing steam generator. There are three main types of CSP designs:
parabolic troughs, parabolic dishes, and power towers.
Parabolic Trough systems consist of many parabola-shaped mirrors that direct heat
from sunlight toward tubes full of flowing fluid or steam. This fluid reaches an industrial
steam generator to produce electricity. With storage capacity for the heated substance,
this technology has the potential to produce electricity when the sun goes down.

Parabolic Dish systems are mirrored dishes that look similar to a satellite dish. They
reflect the sunlight to central points in front of each dish, where the heat is transferred
to a liquid or gas. The heated fluid or gas then powers a generator to create electricity.
Sterling engine designs used to generate electricity beneficial due to their size and the
fact that they use no water. Each parabolic dish’s generating capacity ranges from 10
kW to 25 kW.

Power Towers consist of a multitude of moving mirrors surrounding a large tower. The
mirrors focus the solar heat toward a center point at the top of the tower where either
molten salt or water is heated and cycled down to a generator to produce electricity.
Molten salt can be stored, allowing for the production of electricity after the sun goes
down.

Wind Turbines use the kinetic energy from the wind to generate electricity. There are
variations in size and design but they function similarly. The wind causes the blades and
rotor to spin, which drives gears that powers a generator within the turbine and
generates electricity. The most widely used turbines have a horizontal axis and can be
up to 500 feet high.

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Geothermal Electricity Production taps into the natural heat generated in the earth’s
crust. There are a number of designs to utilize the heat in order to produce steam. This
steam is then captured at geothermal power plants to power thermal generators and
produce electricity.

Biomass Electricity Generation produces electricity by burning any raw or processed
organic plant matter. This technology essentially uses the same process as a coal or
natural gas plant but instead burns biomass. It is considered renewable if the biomass
source continues to grow back.

Biogas Electricity Generation is electricity generated from gases produced by organic
material. Gas is produced from organic matter, agricultural waste, aquatic plants,
vegetative waste, and wood waste or animal and human waste through anaerobic
digestion, oxidization, or gasification. The resulting gas, similar to natural gas, is burned
to produce steam and power a generator to create electricity.

Hydroelectric Generation captures energy from the flow of water. Water is stored
behind a dam in a reservoir, then passes through an enclosed area where it turns a
turbine that generates electricity. Hydroelectricity has been utilized for many years.

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Jobs and Economic Development Impact (JEDI) Modeling Summary
Economic Impacts

The development of wind and solar power plants creates jobs, increases direct local spending on products and
services for the plant, and increases indirect spending by those who receive wages or payments due to the plant’s
operation. The plants also provide a stream of property tax, right-of-way, or other land payment revenue to the state,
county, tribe or federal agency having land jurisdiction, as well as to any private entity whose land makes up part of
the project’s footprint.

The JEDI model

These positive economic impacts can be quantified using the Jobs and Economic Development Impacts model 4
developed by the National Renewable Energy Laboratory. This model is an input-output model, developed using data
gathered from industry interviews, surveys of local businesses, and economic multipliers derived from the Minnesotabased IMPLAN group’s accounting software and state files. The model can be used to estimate economic impacts at
the state or county level. For the purposes of this report, the model was run at the state level.

Basics of economic impacts and input-output modeling

The statewide economic impacts of renewable energy projects are directly related to the relative costs of the project
development materials and processes, and their availability in the state. If there is a component or service for the
construction or maintenance of the plant available in Arizona, the model assumes that it is used, whether this is
actually the case or not. Thus, if the equipment for a concentrating solar plant costs more than an equivalent-size
wind plant, then the total project cost is higher, and to the extent that materials for the plant are available in Arizona,
the economic impact on the state is greater. The same is true for the labor involved in plant construction and
maintenance. In addition, the land use expenses, such as lease arrangements, property taxes, and rights-of-way are
included as default values in the model, and generally are higher for plants that use more of the actual surface area of
the project boundary.
The model quantifies construction-phase and operation-phase impacts. Jobs, earnings, and output are distributed
across three categories:
•

Project Development and Onsite Labor Impacts: refers to the actual work and financial transactions related to
the renewable energy project development, construction and operation onsite at the plant. Example: the job
and paycheck of a road grader or wind turbine technician at a wind plant.

•

Local Revenue and Supply Chain Impacts: refers to additional work or spending that takes place in the local
area or in the supply chain statewide for the actual development, construction, or operation of the plant.
Example: the purchase of local legal services or construction supplies from a firm in the state where a solar
plant is built.

•

Induced Impacts: refers to the work or revenue resulting from local expenditures made by those individuals
whose jobs are supported by the onsite or supply chain impacts. Example: part of the employment, wages,
and revenue at a theater where wind plant workers take their families out for movies and popcorn.

Jobs refers to the full-time-equivalent employment (calculated in job-years) caused by the development phase or
aspect of the project in question.
Earnings is a dollar figure representing the wages, salaries, and benefits paid to the workers in the jobs.
4

See http://www.nrel.gov/analysis/jedi/about_jedi.html

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Output refers to economic activity or the value of production in the state being analyzed. This dollar figure includes
earnings, as well as the other revenue that results from the spending related to the project (purchases of equipment,
materials and services).

Impacts of renewable energy development in Arizona

Arizona currently has 288 MW of wind capacity, 868 MW of solar PV capacity, and 286 MW of CSP capacity operating
or under construction. The economic impacts of the construction and operation of these power plants are illustrated
in the following figures and tables.
These job impacts, calculated using the JEDI model, include on-site jobs, jobs in the supply chain related to the project
development or operation, and indirect jobs created by the additional employment on-site and in the supply chain.

Construction jobs for utility-scale renewables
10000
8000

Project Development and Onsite
Labor

6000

Local Revenue and Supply Chain

4000

Induced

2000
0
Construction job-years (FTE)

Figure 3. Total FTE construction-phase jobs created by all renewable energy projects built or under construction in
Arizona.

Operations jobs for utility-scale renewables
160
140
120
100

Onsite Labor

80

Local Revenue and Supply Chain

60

Induced

40
20
0
Annual operations jobs (FTE)

Figure 4. Total FTE operations jobs created by all renewable energy capacity operating or under construction in Arizona.

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Model validation

Because the model assumes that any service needed by the project is provided in-state if it is available in-state, it
tends to over-estimate the economic impacts of technologies that do have manufacturing and other supply chain
companies in the state. The actual reported economic impacts of several Arizona renewable energy power plants are
listed below.
•

•
•
•

Solana Generating Station, a 280-MW CSP plant with molten-salt energy storage in Maricopa County, built by
Abengoa Solar, reported that during construction the project created 1500 direct jobs, and that there are 85
full time workers employed to operate the plant.
Agua Caliente Solar, a 250-MW solar PV plant (290 planned at construction completion) in Yuma County, built
by FirstSolar, employed 400 workers for four years during construction of all project phases.
Dry Lake I, the first 63-MW phase of two wind plants in Navajo County developed by Iberdrola Renewables,
reported a peak of 200 jobs during construction and 5 permanent on-site positions.
Perrin Ranch, a 99-MW wind plant in Coconino County built by NextEra Energy, reported a peak of 200
construction jobs and 6 permanent positions on-site.

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Arizona Wind and Solar Resource Maps

Source for Maps: National Renewable Energy Laboratory

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Installed and Proposed Capacity Maps (Counties)

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Apache County
Population: 73,195

Size: 11,197 sq. mi.

Median Household Income: $31,011

Solar Project Name
Springerville Generating Station

Design
PV

Megawatts

Acreage

Stage of
Development

7

64

Operating

Total Proposed or Under
Development

0

Total Under Construction or
Operating

7

Developer

Purchaser of
electricity

Global Solar
Energy

Tucson Electric
Power

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Cochise County
Population: 132,088
Size: 6,165 sq. mi.

Median Household Income: $45,906

Solar Project Name

Design

Megawatts

Fort Huachuca

PV

20

San Simon

PV

1.2

Total Proposed or Under
Development

1.2

Total Under Construction or
Operating

20

Wind Project Name

Megawatts

Fort Huachuca

1

Red Horse 2 Wind

51

Total Proposed or Under
Development

0

Total Under Construction or
Operating

52

Acreage

220

Acreage

Stage of
Development

Purchaser of
electricity

Developer

Under
Construction
5

Under
Development

Sulphur Springs
Valley Electric
Cooperative

Purchaser of
electricity

Stage of Development

Developer

Operating

US Army

Under Construction

Red Horse 2, LLC and
Torch Renewable
Energy, LLC

TEP

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Coconino County
Population: 136,011
Size: 18,618 sq. mi.

Median Household Income: $49,615

Solar Project Name

Design

Megawatts

APS Community Power Project

PV

1.5

Total Proposed or Under
Development
Total Under Construction or
Operating

Acreage

Stage of
Development

Developer

Purchaser of
electricity

Operating

APS

APS

0
1.5

Wind Project Name

Megawatts

Acreage

Stage of Development

Developer

Purchaser of
electricity

Perrin Ranch

99.2

22,000*

Operating

NextEra

APS

Total Proposed or Under
Development

0

Total Under Construction or
Operating

99.2

*This includes the entire project boundary which is not completely covered in turbines, allowing for multipurpose use.

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Gila County
Population: 53,144
Size: 4,757 sq. mi.

Median Household Income: $37,905

There are no projects at this time in Gila County.

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Graham County
Population: 8,700

Size: 292.08 sq. mi.

Median Household Income: $32,255

There are no projects at this time in Graham County.

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Greenlee County
Population: 8,802

Size: 1,184.13 sq. mi.

Median Household Income: $49,390

There are no projects at this time in Greenlee County.

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La Paz County
Population: 20,281

Size: 4,499.63 sq. mi.

Median Household Income: $32,220

Solar Project Name

Design

Megawatts

Acreage

Stage of
Development

Horizon

CSP Trough

250

8,812

Proposed

Little Horn

CSP Trough

1,000

12,000*

Proposed

Quartzsite Solar Energy
Project

CSP Tower

100

1,450

Under
Development

La Paz Solar Tower
Total Proposed or Under
Development
Total Under Construction
or Operating

Solar Tower

200

Under
Development

Developer
Horizon Wind
Energy, LLC.
SunPower
Corp.

Purchaser of
electricity

Solar Reserve
EnviroMission

Southern
California
Public Power
Authority

1,550
0

*This figure reflects acreage applied for through the BLM, not the actual footprint of the project.
24 | P a g e

Maricopa County
Population: 3,942,169
Size: 9,200 sq. mi.

Median Household income: $55,099

Acreage

Stage of
Development

Solar Project Name

Design

Megawatts

ASU Solar Array

PV

23.5

Arlington Valley Solar
Energy Project

PV

125

1,433

Under
Development

Arlington Valley Solar
Project II

PV

125

1,160

Under
Development

Phase 1 of Arlington
Valley Solar Project II

PV

19*

Badger 1 Solar Farm

PV

15

Cotton Center

PV

18

Crossroads Solar Energy
Project

CSP Tower

150

Gila Bend

PV

500

6,000

Gila Bend Solar Power
Plant

PV

32

400

Gillespie 1

PV

20

Horizon Aguila

CSP Trough

250

11,534

Hyder Valley Solar
Energy Project

CSP Trough

325

4,500

Purchaser of
electricity

Developer

Operating
Arlington Valley
Solar Energy,
LLC
Arlington Valley
Solar Energy,
LLC

Operating

AVSE, LLC

172

Under
Development

Juwi Solar Inc.

APS

145

Operating

Solon

APS

Under
Development

Solar Reserve

Proposed

First Solar

Under
Construction
Under
Construction
Proposed
Under
Development

Solar Reserve

APS

Recurrent
Energy
First Solar
Iberdrola

25 | P a g e

Solar Project Name

Design

Megawatts

Acreage

Stage of
Development

Maricopa Solar Park

PV

300

1,730

Under
Development

Mesquite Solar 1

PV

150

920

Operating

Mesquite Solar
Additional Phases

PV

550

Proposed

Paloma Solar Plant

PV

17

Queen Creek Solar

PV

25

CSP Trough

Solana Generating
Station
Sonoran Solar Energy
Project
Sun Streams Solar Farm
Total Proposed or Under
Development
Total Under
Construction or
Operating

Developer

Purchaser of
Electricity

Marisol Energy
II, LLC
Sempra U.S. Gas
& Power
Sempra U.S. Gas
& Power

PG&E

Operating

First Solar

APS

135

Operating

Juwi Solar Inc.

SRP

280

1,920

Operating

Abengoa

APS

PV

300

2,013

Boulevard
Associates, LLC

PV

150

Under
Development
Under
Development

Element Power

2,790
584.5

*The 19 mw are included in the overall 125 mw of Arlington Valley Solar Project II.

26 | P a g e

Mohave County
Population: 203,334
Size: 13,311 sq. mi.

Median Household Income: $40,573

Solar Project Name

Design

Megawatts

Black Mountain Solar

PV

10

Hualapai Valley Solar
Project

CSP Trough

340

Kingman Project

CSP Trough

200

La Senita Elementary

PV

1.2

Western Wind Energy
Project

PV

.5

Total Proposed or Under
Development
Total Under Construction
or Operating

Acreage

4,000

10

Stage of
Development

Developer

Operating

Duke Energy

Under
Development

Mohave Sun
Power

Under
Development
Operating

Albiasa
Corp.
Unisource
Western
Wind
Energy

Operating

540
11.7

Stage of
Development

Developer

Dolan Springs

Testing

Pacific Wind
Development, LLC

Five Star 1

Testing

Five Star Energy
Systems, LLC

Five Star 2

Testing

Five Star Energy
Systems, LLC

Wind Project Name

Purchaser of
electricity
UniSource
Energy Service
Western Area
Power
Administration

Megawatts

Acreage

Purchaser of
electricity

27 | P a g e

Stage of
Development

Developer

Up to 500

Under
Development

BP Wind Energy
North America

10

Operating

Western Wind
Energy

Wind Project Name

Megawatts

Mohave County Wind Farm
Western Wind Energy Project
Total Proposed or Under
Development
Total Under Construction or
Operating

Acreage

Purchaser of
electricity

Up to 500
10

28 | P a g e

Navajo County
Population: 107,094
Size: 9,950 sq. mi.

Median Household Income: $38,975

There are no solar projects in Navajo County at this time.

Wind Project Name

Megawatts

Acreage

Stage of
Development

Developer

Purchaser of
electricity

Dry Lake Wind Farm

127

6,000*

Operating

Iberdrola

SRP

Total Proposed or Under
Development
Total Under Construction or
Operating

0
127

*Turbines cover less than two percent of the total acreage.
29 | P a g e

Pima County
Population: 992,394
Size: 9,187 sq. mi.

Median Household Income: $46,341

There are no wind projects in Pima County at this time.

Design

Megawatts

Ajo Solar

PV

5

Avra Valley Solar Project

PV

25

Bright Tucson

PV

2

Under
Development

Davis-Monthan AFB

PV

14.5

Operating

Davis-Monthan AFB –
Soaring Heights
Community

PV

6

Operating

Gato Montes, U of A

PV

6

Pima County Wastewater
Reclamation Solar Plant

PV

1

Operating

Roger Road

PV

1

Operating

Prairie Fire

PV

5

Saguaro Solar Power
Plant

CSP Trough

1

TEP’s Sundt Boost Project

Compact Linear
Fresnel Reflector

5

Tucson Solar

PV

25

Total Proposed or Under
Development
Total Under Construction
or Operating

Acreage

Stage of
Development
Operating

Solar Project Name

200

38.5

16

Operating

Developer
Duke Energy
NRG Solar; First
Solar

TEP

TEP

TEP

Duke Energy

TEP

Operating

Solon

TEP

Operating

Solargenix

APS

Operating

Operating
305

Purchaser of
electricity
APS

Operating

TEP
SunEdison

TEP

2
94.5
30 | P a g e

Pinal County
Population: 387,365
Size: 5,365 sq. mi.

Median Household Income: $51,212

Solar Project Name

Design

Megawatts

Acreage

Stage of
Development

Developer

Purchaser of
electricity

Copper Crossing Solar Ranch

PV

20

144

Operating

Iberdrola

SRP

Total Proposed or Under
Development
Total Under Construction or
Operating

Wind Project Name
Kearny

Megawatts

0
20

Acreage

Stage of
Development

Developer

Testing

Grayback Wind,
LLC

Purchaser of
electricity

Total Proposed or Under
Development
Total Under Construction
or Operating

31 | P a g e

Santa Cruz County
Population: 266,776
Size: 445 sq. mi.

Median Household Income: $66,030

Solar Project Name

Design

Megawatts

Acreage

Stage of
Development

Developer

Purchaser of
electricity

Rio Rico

PV

5

37

Under
Construction

UNS Energy
Corp.

Unisource
Energy Services

Total Proposed or Under
Development

0

Total Under Construction or
Operating

5

There are no wind projects in Santa Cruz County at this time.

32 | P a g e

Yavapai County
Population: 212,637
Size: 8,123 sq. mi.

Median Household Income: $44,084

Solar Project Name

Design

Megawatts

Acreage

Stage of
Development

Developer

Purchaser of
electricity

Bagdad Solar

PV

15

127

Operating

Duke Energy

APS

160

Operating

SunEdison

APS

Chino Valley Solar Plant

PV

20

Prescott Airport Solar
Power Plant

PV

2

Operating

Prescott Solar Plant

PV

10

Operating

SunEdison

APS

Prescott Solar Power Plant

PV

3

Operating

APS

APS

Prescott Valley Tank Farm

PV

2

Operating

Smart Energy
Capitol

Prescott Valley

Total Proposed or Under
Development
Total Under Construction
or Operating

0
52

Wind Project Name

Megawatts

Yavapai Ranch

130

Total Proposed or Under
Development

130

Total Under Construction or
Operating

APS

Acreage

Stage of
Development

Developer

Under Development

NextEra
Energy

Purchaser of
electricity

0

33 | P a g e

Yuma County
Population: 202,022
Size: 5,513 sq. mi.

Median Household Income: $41,441

Solar Project Name

Design

Megawatts

Acreage

Agua Caliente

PV

290

2,000

Arizona Western College

PV

5

Foothills

PV

35

400

Hyder I Solar Plant

PV

16

140

Hyder II Solar Plant

PV

14

240

San Luis Solar Plant

PV

20

175

Wildcat Quartzsite

CSP Tower

100

1,675

Total Proposed or Under
Development
Total Under Construction
or Operating

Developer

Purchaser of
electricity

First Solar

PG&E

Operating
Under
Construction
Operating
Under
Construction
Under
Development
Under
Development

APS
First Solar

PG&E
APS
APS
APS

Quartzsite Solar
Energy

120

360

Wind Project Name

Megawatts

San Luis

1,500

Total Proposed or Under
Development

1,500

Total Under Construction or
Operating

Stage of
Development
Under
Construction

Acreage

Stage of
Development

Developer

Proposed

Clean Wind Energy

Purchaser of
electricity

0

34 | P a g e

AK Chin Indian Community
Population: 1,001
Size: 32 sq. mi.

Median household income: $32,022
The Ak Chin Indian Community performed a feasibility study with USDOE’s Tribal Energy
Program for a biomass plant in 2004, to utilize manure from local chicken farming and other feedstock for electricity
generation. The project did not move forward, as other economic uses of the agricultural wastes proved to be more
feasible.
The Community also established its own electric utility, ACES, in 1992 and began providing all electricity service in
1997. Until recently, APS provided all operation, maintenance and construction services. ACES now partners with ED3,
a regional provider of services for electric utilities.
The Community does not currently have any renewable energy generation capacity, but it explored commercial-scale
solar development (utility-scale, for sale to external parties) with support from the U.S. Office of Indian Energy Policy
and Programs. No projects were feasible economically at the time of the investigation.
The Community continues to consider smaller-scale renewable energy projects on a case-by-case basis. The
Community is investigating solar street-lighting for new streets where there is not already electricity access to the
light poles. In addition, large new structures are designed to be able to accommodate future installation of PV panels.
This information was gathered using web searches and conversations with tribal representatives. The census data was
found online and represents 2010 figures.
Sources:
•
•
•
•
•

Jayne Long, Building Director and Capital Projects Manager, Ak Chin Indian Community
Leonard Gold, Consultant, helped Community to establish Ak Chin Energy Services utility
U.S. DOE Tribal Energy Program website:
http://apps1.eere.energy.gov/tribalenergy/projects_detail.cfm/project_id=77
Presentation to U.S. DOE on utility development:
http://apps1.eere.energy.gov/tribalenergy/pdfs/tribal_business/aces_0811.pdf
Tribal Demographic Analysis
http://azcia.gov/Documents/Links/DemoProfiles/Ak%20Chin%20Indian%20Community.pdf

35 | P a g e

Cocopah Tribe
Population: 1,025
Size: 10 sq. mi.

Median household income: $43,300

The Cocopah tribe is interested in solar projects and has begun discussion with potential partner Native American
Environmental Protection Coalition.
This information was gathered from conversations with tribal representatives. The census data was found online and
represents 2010 figures.
Sources:
•
•

Hector Salas, Environmental Specialist
Demographic Analysis of the Cocopah Tribe
http://azcia.gov/Documents/Links/DemoProfiles/Cocopah%20Indian%20Tribe.pdf

36 | P a g e

Colorado River Indian Tribes
Population: 7,077
Size: 389 sq. mi.

Median household income: $27,925

The Colorado River Indian Tribes are not pursuing any renewable energy development. They receive electricity from a
hydroelectric power allocation from the Colorado River. They also are in the process of protesting the utility-scale
Genesis solar PV project on BLM land about 30 miles west of their tribal reservation due to concerns about the
installation’s impact on cultural archaeological sites 5.
This information was gathered from web searchers and conversations with tribal representatives. The census data was
found online and represents 2010 figures.
Sources:
•
•

5

Demographic Analysis for the Colorado River Indian Tribes
http://azcia.gov/Documents/Links/DemoProfiles/Colorado%20River%20Indian%20Tribes.pdf
CRIT Website news:
http://www.crit-nsn.gov/crit_contents/news/03192012.shtml

See http://www.crit-nsn.gov/crit_contents/news/03192012.shtml

37 | P a g e

Fort McDowell Yavapai Nation
Population: 971
Size: 39 sq. mi.

Median household income: $51,157

The Fort McDowell Yavapai Nation installed a 12 kW solar PV system on one of the tribal headquarters buildings in
2010. There are also two systems at the air monitoring station that are a demonstration project comparing tracking
systems: a ~1.5 kW array on a Watson motorized solar tracker, and ~1.8kW on a Zone Works single-axis passive
tracking system.
The headquarters building project has generated more than the projected quantity of electricity, and due to this
positive experience, the tribe decided to pursue the development of 1 MW of solar PV capacity, working with EPA and
NREL.
This information was gathered using web searches and conversations with tribal representatives. The census data was
found online and represents 2010 figures.
Sources:
•
•

Dan Catlin, Air Quality Specialist
EPA website on tribal projects to combat climate change:
http://www.epa.gov/Region09/climatechange/tribes/index.html

38 | P a g e

Fort Mojave Tribe
Population: 1,004
Size: 37 sq. mi.

Median household Income: $33,424

The Fort Mojave Indian Reservation is located along the Colorado River in the vicinity of Needles, California. The
Reservation covers nearly 42,000 acres in the tri-state area of Arizona, California, and Nevada. The land is divided
into three major segments: 23,669 acres in Mojave County Arizona; 12,633 acres adjacent to Needles, California; and
5,582 acres in Clark County, Nevada. Tribal headquarters are located in Needles, California.
The Fort Mojave tribe is in the process of developing a 310 MW solar PV project on tribal reservation land in Arizona
and California. A proposal for a transmission line to connect the project to the Mojave Generating Station substation
was submitted to the Public Utility Commission of Nevada in March 2013. The project does not currently have a PPA
for selling the electricity.
The status of the project is not certain, and further information about the project is not public, according to tribal
representatives.
The Aha Macav tribal power utility has a 28 kW PV system on its main office building, which meets the building’s
needs, and has a smaller (3-4 kW) system on the operations center. The tribe is pursuing utility-scale development for
sale to external partners, and is examining a large 1-2 MW size PV system to meet the utility/tribe’s internal load. The
utility’s primary source of electricity for meeting consumer load currently is power contracts and market purchases.
This information was gathered using web searches and from conversations with tribal representatives. The census
data was found online and represents 2010 figures.
Sources:
•
•
•

U.S. Department of Energy Tribal Energy Program website:
http://apps1.eere.energy.gov/tribalenergy/projects_detail.cfm/project_id=67
Laughlin Times article:
http://www.laughlintimes.com/articles/2013/04/03/news/local/news882.txt
Demographic Analysis for Fort Mojave Tribe
http://azcia.gov/Documents/Links/DemoProfiles/Fort%20Mojave%20Reservation.pdf

•
•

Lisa Wayne, Tribal Representative
Bill Cyr, Aha Macav Tribal Power Service

39 | P a g e

Gila River Indian Community
Population: 11,712
Size: 585 sq. mi.

Median household income: $28,779

The Gila River Indian Community has its own Utility Authority and a Community Renewable Energy Team made up of
Council representatives, Community Department representatives, and Utility Authority members. This team and the
Utility Authority conducted a Strategic Energy Planning workshop in 2010 with more than 50 participants. A highlight
of the Energy Plan was the designation of several brownfield sites for future potential solar energy development.
The Community has installed solar street lighting in the Sacaton and Casa Blanca communities through federal grants,
and used community funds to install solar lighting at the George Webb and D-5 Multi-purpose facility projects.
The Community obtained grants from the U.S. Departments of Energy and Agriculture for facility- and commercialscale solar or biomass projects on tribal land, but has not currently pursued the construction of either project.
The Community is pursuing the development of a 33 MW tracking solar PV system, on tribal reservation land, for
Community use, to provide electricity for water pumping and irrigation, and to sell power to nearby municipal and
agricultural systems.
This information was gathered from conversations with tribal representatives. The census data was found online and
represents 2010 figures.
Sources:
•
•
•

Statement developed by Utilities Director Leonard Gold, approved by Gila River Indian Community Utility
Authority board.
Conversations with John Lewis and Jason Hauter, Community members.
Demographic Analysis for the Gila River Community
http://azcia.gov/Documents/Links/DemoProfiles/Gila%20River%20Indian%20Community.pdf

40 | P a g e

Havasupai Tribe
Population: 465

Size: 275 sq. mi.

Median household income: $32,000

In 2012 and 2013, the Havasupai tribe partnered with EPA, BIA, and others to build a 500 kW solar PV system on Long
Point, above the canyon where the tribal community lies. The system was built as part of a settlement enforcement
action taken by U.S. EPA for violations of RCRA, CAA, AHERA, and the SDWA 6.
This information was gathered using web searches and not from conversations with tribal representatives. The census
data was found online and represents 2010 figures.
Sources:
•
•

6

BIA website reports and videos on solar project:
http://www.bia.gov/cs/groups/xofecr/documents/text/idc017650.pdf
Demographic Analysis for Havasupai Tribe
http://azcia.gov/Documents/Links/DemoProfiles/Havasupai%20Tribe.pdf

See http://www.bia.gov/cs/groups/xofecr/documents/text/idc017650.pdf

41 | P a g e

Hopi Tribe
Population: 7,185

Size: 2,533 sq. mi.

Median household income: $34,016

The Hopi Tribe is exploring a number of options for utility-scale solar PV development. Several proposed projects have
been presented at the Hopi Tribal Council, as recently as fall 2013. The Council has not voted to partner with any
developer to date.
Over the past several years, the Tribe performed wind resource assessment in Kykotsmovi and on a ranch that the
tribe purchased near Clear Creek. The tribe does not have plans to pursue wind development at this time.
This information was gathered from conversations with tribal representatives. The census data was found online and
represents 2010 figures.
Sources:
•
•

Conversations with:
Ken Lomayestewa, Director, Hopi Tribe Renewable Energy Office
Demographic Analysis for the Hopi Tribe
http://azcia.gov/Documents/Links/DemoProfiles/Hopi%20Tribe.pdf

42 | P a g e

Hualapai Tribe
Population: 1,335

Size: 1,604 sq. mi.

Median household income: $34,375

The Hualapai Tribe has been working to pursue utility-scale wind and solar development for several years. The tribe
received U.S. Department of Energy funding for resource and feasibility assessment through the Tribal Energy
Program in 2009-2010. The tribe also received funding through the 2012 DOE START program to pursue developing a
utility-scale wind project.
The Tribe is pursuing 170 MW of wind development at Buck and Doe on Reservation land. The Tribal Council has
discussed the possibility of partnering with PNE Wind of Germany to lease land for the wind development project.
The tribe is considering proposing the wind development project for the Southern California Public Power Authority
PPA request due December 31, 2013.
The tribe is has filed an interconnection application and is performing a feasibility study to use the WAPA LibertyMead 345 kV transmission line for selling generation from the 170 MW of wind plus solar capacity. The tribe is also
preparing an environmental impact report for its own Tribal Historic Preservation Office. The tribe has performed
avian surveys and other environmental studies.
In 2010, the tribe also received funding from the BIA Energy and Mineral Development Program for a solar feasibility
study. This project identified potential sites for 100-MW solar projects, and several options for an array of up to 1
MW at Grand Canyon West. As a result of this analysis, the tribe is pursuing 100-150 MW of solar PV development at
Nelson or Clay Springs.
The tribal planning and economic development office leads renewable energy development, but the tribe has
prioritized the development of its own utility authority. The tribe received support from the U.S. DOE Tribal Energy
Program in 2005 for the establishment of a utility authority to provide service first at Grand Canyon West and then for
the remainder of the reservation.
The tribe has some distributed solar capacity as well. There is a 34kW solar PV array at Grand Canyon West, which
according to tribal representatives, does not function due to poor maintenance. There is also a new 19kW solar PV
array at the school in Peach Springs.
This information was gathered from conversations with tribal representatives. The census data was found online and
represents 2010 figures.
Sources:
•
•

Kevin Davidson, Director, Hualapai Tribe Planning and Economic Development Office
Demographic Analysis for Hualapai
Tribe http://azcia.gov/Documents/Links/DemoProfiles/Hualapai%20Indian%20Tribe.pdf

43 | P a g e

Kaibab Paiute Tribe
Population: 240

Size: 190 sq. mi.

Median household income: $28,750

The Kaibab Paiute is not considering any renewable energy development at this time.
This information was gathered from conversations with tribal representatives. The census data was found online and
represents 2010 figures.
Sources:
•
•

Daniel Bulletts, Acting Environmental Director
Demographic Analysis for the Kaibab Paiute Tribe
http://azcia.gov/Documents/Links/DemoProfiles/Kaibab%20Paiute.pdf

44 | P a g e

Navajo Nation
Population: 173,667
Size: 24,156 sq. mi.

Median household income: $27,389

The Navajo Nation recently passed the Energy Policy Act of 2013, which mandates the establishment of a Navajo
Nation Energy Office. The Navajo Nation Department of Justice is charged with the implementation of the Act. The
Energy Office, when established, will function as a central agency for the assessment, prioritization, and development
of renewable energy projects.
The Navajo Nation has its own utility authority, Navajo Tribal Utility Authority (NTUA), which provides electric service
to the entire reservation. NTUA operates an off-grid renewable energy program to provide electric service to
customers who are outside the geographic range of its electricity grid. NTUA operates roughly 300 off-grid solar and
wind installations, and provides operation and maintenance services.
The Navajo Nation and NTUA have performed wind assessments and feasibility investigations with private
development partners at a number of sites on and off the Navajo Reservation, including Gray Mountain and the Big
Boquillas ranch, but none of the projects are moving forward at this time. The Nation is also considering solar project
development at facility and utility scale.
This information was gathered from conversations with tribal representatives.
Sources:
•
•
•
•

Terry Battiest, Derrick Terry, NTUA
Toni Flora, Navajo Nation Department of Justice
Anthony Peterman, Navajo Nation Office of the Speaker
Demographic Analysis for Navajo Nation
http://azcia.gov/Documents/Links/DemoProfiles/Navajo%20Nation.pdf

45 | P a g e

Pascua Yaqui Tribe
Population: 3,484
Size: 2 sq. mi.

Median household income: $31,875

In 2012 the Pascua Yaqui Tribe received funding from the Department of Energy to conduct a Renewable Energy
Development and Deployment Feasibility Study. This study looked at the economic and technical viability for
commercial and community scale renewable energy projects on the 6,289 acres of Turtuga Ranch, primarily to
identify an optimal location for a 1 MW solar installation. The Casino Del Sol, government facilities, and other
buildings have been identified as potential projects.
This information was gathered using web searches and not from conversations with tribal representatives. The census
data was found online and represents 2010 figures.
Sources:
•
•

Department of Energy Tribal Energy Program
http://apps1.eere.energy.gov/tribalenergy/projects_detail.cfm/project_id=213
Demographic Analysis of the Pascua Yaqui Tribe
http://azcia.gov/Documents/Links/DemoProfiles/Pascua%20Pueblo%20Yaqui.pdf

46 | P a g e

Salt River Pima-Maricopa Indian Community
Population: 6,289
Size: 85 sq. mi.

Median household income: $31,892

The Salt River Pima-Maricopa Indian Community has not installed any major renewable energy projects at this time,
but momentum seems to be growing.
Au-Awthum Tash LLC, a renewable energy developer based in Salt River Pima-Maricopa Indian Community, signed a
letter of intent to install Crystal Research Corporation’s energy technologies within the Community. Also, with
funding through the Renewable Energy Investment Fund managed by the Grand Canyon Trust, a 75kW solar PV
parking structure has been designed and is in the bid phase of construction. The project will offset electricity costs for
a 5 building apartment complex that houses community elders.
Through the EarthWise energy program, the Salt River Prima-Maricopa Indian Community had partnered with the Salt
River Project to provide methane from a closed landfill to power a 4 MW biogas generation facility. This project has
been running for 7-8 years now.
This information was gathered using web searches and conversations with tribal representatives. The census data was
found online and represents 2010 figures.
Sources:
•
•

Scott Thigpen, Assistant Director of Engineering and Construction Services
Demographic Analysis of the Salt River Pima-Maricopa Indian Community
http://azcia.gov/Documents/Links/DemoProfiles/Salt%20River%20PimaMaricopa%20Indian%20Community.pdf

47 | P a g e

San Carlos Apache Tribe
Population: 10,068
Size: 2,927 sq. mi.

Median household income: $26,915

The San Carlos Apache Tribe is pursuing a 1.4 MW community-scale solar PV installation to provide power to its
casino enterprise. With support through the receipt of a U.S. DOE START program 2013 technical assistance grant, the
tribe is working with NREL to develop a PPA whereby the PV installation would be owned by the tribe, and the casino
would be the off-taker. The tribe is served by three distinct electrical utilities, and the casino sits within APS territory.
The tribe is working with third-party Ameresco to develop the project.
The tribe also completed a feasibility study for utility-scale solar PV in the 5-20 MW range with support from the U.S.
DOE Tribal Energy Program in 2012. The study identified transmission access as a prohibitive barrier and
recommended focusing on community-scale solar projects and the establishment of a tribal utility authority.
The tribe also has distributed-scale solar generation capacity. There is a 3.5kW ground-mounted off-grid solar PV
array at the radio tower site, and a 7.1kW PV system at the radio studio building.
This information was gathered from conversations with tribal representatives and using web searches. The census
data was found online and represents 2010 figures.
Sources:
•
•

Ken Duncan, Jr. Energy Coordinator, Planning Division
Demographic Analysis of the San Carlos Apache Tribe
http://azcia.gov/Documents/Links/DemoProfiles/San%20Carlos%20Apache%20Tribe.pdf

48 | P a g e

Tohono O’Odham nation
Population: 10,201

Size: 4,454 sq. mi.

Median household income: $27,040

The Tohono O’Odham tribe elected not to participate in this
report at this time.
This information was gathered from conversations with tribal representatives. The census data was found online and
represents 2010 figures.
Sources:
•
•
•

Phil Hobbs and Gerald Fayaunt, Planning and Economic Development office
Demographic Analysis of the Tohono O’Odham nation
http://azcia.gov/Documents/Links/DemoProfiles/Tohono%20O'odham%20Nation.pdf

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Tonto Apache Tribe
Population: 120
Size: .31 sq. mi.

Median household income: $16,667

The Tonto Apache tribe applied for and was awarded support from the U.S. Department of Energy’s Tribal Energy
Program to help fund the installation of solar PV arrays on three of the tribe’s buildings with the highest energy
consumption. The PV systems are expected to meet more than 60 percent of the buildings’ total electricity needs.
This information was gathered using web searches. The census data was found online and represents 2010 figures.
Sources:
•

http://energy.gov/articles/energy-department-invests-over-7-million-deploy-tribal-clean-energy-projects

•

http://azcia.gov/Documents/Links/DemoProfiles/Tonto%20Apache.pdf

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White Mountain Apache Tribe
Population: 13,409
Size: 2,631 sq. mi.

Median household income: $26,973

The White Mountain Apache Tribe will be conducting a feasibility study during March and April of 2014 to investigate
the potential for developing a biomass electricity generation plant, fueled from slash and waste from forest
restoration.
This information was gathered from conversations with tribal representatives. The census data was found online and
represents 2010 figures.
Sources:
•
•

Derreck Wheeler, Planning Department
Demographic Analysis of the White Mountain Apache Tribe

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Yavapai Apache Nation
Population: 718

Size: 1 sq. mi.

Median income: $27,600

The Yavapai Apache Nation is pursuing several facility-scale solar PV arrays, and has performed feasibility studies for
PV capacity on its administration building (65 kW) and social services building (20kW). The Nation has identified the
system size, developed plans for construction, and is working through the process of developing a sound financing
mechanism to fund the project. The Nation submitted a proposal to the U.S. DOE 2013 TEP funding opportunity to
support both installations, but the project was not selected.
The Nation also performed a feasibility study for 400 kW of solar PV capacity to power its casino operation but is not
currently pursuing the project because it does not believe it would be financially beneficial.
The Yavapai Apache Nation has distributed solar capacity on 38 residential rooftops and powers streetlights with solar
in the Clarkdale, Camp Verde, Middle Verde and Tunlii communities. The residences are newly constructed allelectric-appliance homes, and the solar capacity installed defrays energy costs for occupants.
This information was gathered from conversations with tribal representatives. The census data was found online and
represents 2010 figures.
Sources:
•
•
•

Buddy Rocha, Jr., Economic Development Director
David Lewis, Environmental Specialist
http://azcia.gov/Documents/Links/DemoProfiles/Yavapai-Apache%20Nation.pdf

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Armed Forces Bases in Arizona

The Department of Defense (DoD) and the Department of Energy (DOE) published a Memorandum of
Understanding (MOU) in July 2010 to facilitate cooperation to accelerate the research, development, and
deployment of energy efficiency and renewable energy technologies. 7 The Army is making a special effort to
purchase renewable energy generated from solar, wind, geothermal, and biomass. 8 In Arizona, the Marine Corps
Air Station recognizes the importance of energy conservation as a means of protecting limited natural resources,
and is committed to meeting established energy goals. 9 In May 2010, the Air Force published its Air Force Energy
Plan with the vision “to consider energy in all that they do.” 10 In addition to the consideration of their
environmental footprint, these initiatives represent the Armed Forces concern over energy security heading into
the future.
Specific goals articulated by each branch’s policy documents are highlighted at the beginning of the
sections below. Net‐zero energy means the installation produces as much energy on‐site as it uses.

United States Marine Corps

Goals:
•
•

Produce at least 50 percent of shore‐based energy from alternative sources by 2020; 50 percent of Navy and
Marine Corps installations will be net‐zero by 2020.
By 2020, 50 percent of total energy consumption will come from alternative sources.

Marine Corps Air Station Yuma: According to press reports from the Arizona Governor’s office, Marine Corps Air
Station Yuma was to place a 33kW solar array on building 234 as of 2009. This could not be confirmed with personnel
at the base.

Department of the Air Force

Goals:
•
•
•

Reduce energy demand by installations, flight operations, and ground operations.
Increase energy supply by developing and utilizing renewable and alternative energy wherever possible.
Change the culture to increase energy awareness in day‐to‐day operations.

6

http://files.eesi.org/dod_eere_factsheet_072711.pdf
http://army-energy.hqda.pentagon.mil/renewable/renewable_projects.asp
8
http://azgovernor.gov/renewable/documents/Feb2010/MarineCorpsAirStationYuma.pdf
9
See #6 above.
7

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Barry M. Goldwater Range: No projects at this time.
Davis-Monthan Air Force Base: There are two renewable energy facilities currently producing electricity. These
include the Solar PV Project with 14.5 MW capacity and the Soaring Heights Community PV Array with 6 MW capacity,
both located within the Soaring Heights Community.
Luke Air Force Base: Luke Air Force Base’s APS solar PV 14 MW farm is permanently on hold as of December, 2013.

Department of the Army

Goals:
•
•
•
•
•

Five installations will meet net‐zero energy usage goals by 2020, and an additional 25 will achieve net‐zero
energy by 2030.
Reduce energy consumption.
Increase energy efficiency across platforms and facilities.
Increase use of renewable/alternative energy supplies.
Reduce adverse impacts on the environment.

Camp Navajo: No projects at this time.
Fort Huachuca: Fort Huachuca currently has one facility producing electricity, a 1-MW wind turbine. In the next year,
the Fort plans to construct a 20 MW solar PV array on 70 acres. Construction is scheduled to begin during the spring
of 2014 and to be completed in December of 2014. This solar array will be owned and operated by a non-military
entity.
Yuma Proving Ground: In close coordination with the Army Energy Initiatives Task Force (EITF), YPG is exploring
opportunities for utility-scale renewable energy projects located at YPG. California utilities are the expected offtakers of the majority of the power generated from these projects.

Army National Guard
National Guard renewable energy facilities throughout the state are limited in size and are often not
staffed or operational daily year-round. These facilities in Arizona make use of renewable
technologies, including solar arrays up to 250kW, but there are no installations more than 1 MW.

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Appendix A: Additional JEDI Modeling Details

The following tables detail the construction-phase and operation-phase jobs of 100 MW of wind capacity in Arizona.

100 MW Wind Construction-phase jobs
700
600

Construction and
Interconnection Labor

500

Construction Related Services

400
300

Turbine and Supply Chain

200
Induced

100
0
Construction job-years (FTE)
Figure 5. Job creation from the construction phase of a 100 MW wind plant.

100 MW Wind Operation-phase jobs
50
45
40
35
30
25
20
15
10
5
0

Onsite Labor
Local Revenue and Supply Chain
Induced

Annual operations jobs (FTE)
Figure 6. Job creation during the operation phase of a 100 MW wind plant.

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The following tables detail the construction-phase and operation-phase jobs of 100 MW of solar PV capacity in
Arizona.

100 MW Solar PV Construction-phase jobs
700

Construction and Installation
Labor

600

Construction and Installation
Related Services

500
400

Manufacturing Impacts

300

Trade (Wholesale and Retail)

200

Finance, Insurance and Real
Estate

100
0
Construction job-years (FTE)

Professional Services

Figure 7. Job creation from the construction phase of a 100 MW solar PV plant.

100 MW Solar PV Operation-phase jobs
50
45
40
35
30
25
20
15
10
5
0

PV Project Labor Only
Local Revenue and Supply Chain
Induced

Annual operations jobs (FTE)
Figure 8. Job creation during the operation phase of a 100 MW solar PV plant.

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The following tables detail the construction-phase and operation-phase jobs of 100 MW of CSP capacity in Arizona.

100 MW CSP Construction-phase jobs
700
600

Construction and
Interconnection Labor

500

Construction Related Services

400
300

Equipment and Supply Chain

200
Induced

100
0
Construction job-years (FTE)
Figure 9. Job creation from the construction phase of a 100 MW CSP plant.

100 MW CSP Operation-phase jobs
50
45
40
35
30
25
20
15
10
5
0

Onsite Labor Impacts
Local Revenue and Supply Chain
Induced

Annual operations jobs (FTE)
Figure 10. Job creation from operation phase of a 100 MW CSP plant.

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Appendix B: Additional Resources

Following is a list of resources that our team used in compiling this report, as well as a series of links that provide
additional information on renewable energy goals, permitting, and requirements, at the state, local, and federal level.

Arizona Utility Requirements and State Incentives:
Database of all Renewable Energy Incentives in Arizona – includes up-to-date information on state, utility, and local
incentives for renewable energy installations
http://www.dsireusa.org/incentives/index.cfm?re=1&ee=1&spv=0&st=0&srp=1&state=AZ

Arizona State Renewable Energy Standards and Tariff (REST) – the Arizona requirement for utilities to provide a
percentage of their electricity from renewables
http://www.dsireusa.org/incentives/incentive.cfm?Incentive_Code=AZ03R&ee=1
http://www.cc.state.az.us/divisions/utilities/electric/environmental.asp

Arizona Governor’s Office of Energy Policy
http://www.azenergy.gov/

Renewable Energy Production Tax Credit Arizona – this is an individual or corporate income tax credit of $0.01$0.04/kWh for renewable energy generation systems installed between 2010 and 2021. The credit lasts for ten years
from the system installation.
http://www.azdor.gov/LinkClick.aspx?fileticket=FW9Ym9tAbMg%3D

Arizona Commercial / Industrial solar energy tax credit – this is a credit of up to 10% or $25,000 of system
installation costs for solar generation facilities on commercial sites.
http://www.azenergy.gov/

Residential Solar and Wind Energy Systems tax credit – this is a credit of up to $1000 or 25% of system installation
costs for solar or wind generation facilities on residential sites.
http://www.azdor.gov/Portals/0/Brochure/543.pdf

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Federal policies, incentives, and land management:
Renewable Electricity Production Tax Credit
http://dsireusa.org/incentives/incentive.cfm?Incentive_Code=US13F

Business Energy Investment Tax Credit
http://www.dsireusa.org/incentives/incentive.cfm?Incentive_Code=US02F

Renewable Energy Credits (RECs) overview from U.S. EPA
http://www.epa.gov/greenpower/gpmarket/rec.htm

DOE Office of Energy Efficiency and Renewable Energy
http://energy.gov/eere/office-energy-efficiency-renewable-energy

Information on Clean Renewable Energy Bonds (CREBs)
http://www.irs.gov/pub/irs-tege/ncrebs_2009_allocations_v1.1.pdf
http://energy.gov/savings/clean-renewable-energy-bonds-crebs

Bureau of Land Management (BLM) information about renewable energy projects, policies and permitting
http://www.blm.gov/az/st/en/prog/energy/clearinghouse.html

BLM Solar and Wind Map
http://www.blm.gov/pgdata/etc/medialib/blm/az/pdfs/energy.Par.18131.File.dat/AZSolar_Wind_Map.pdf

Proposed Projects on BLM land
http://www.blm.gov/az/st/en/prog/energy/solar/prop-projs.html

U.S. Energy Information Agency Arizona Profile
http://www.eia.gov/state/?sid=az

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County Ordinances:
Pima County- Ordinance and Amendments
http://www.dsd.pima.gov/documents/Planning/PZ_Agenda/2014/supplement/Co8-1106_final_20140116124340.pdf

Yuma County – Renewable Energy Ordinance
http://www.yumacountyaz.gov/Modules/ShowDocument.aspx?documentid=18347

Maricopa County Zoning Ordinance
http://www.maricopa.gov/planning/Resources/Ordinances/pdf/reform_ordinance/mczo1.pdf

Navajo County Wind Energy Ordinance
http://www.navajocountyaz.gov/pubworks/pz/energy/

Coconino County Comprehensive Plan Energy Element
http://www.coconino.az.gov/DocumentCenter/View/2993

La Paz Comprehensive Plan Updated 2010
http://www.co.la-paz.az.us/2010_La%20Paz%20County%20Comprehensive%20Plan.pdf

Cochise Zoning Regulations
http://cochise.az.gov/cochise_planning_zoning_article.aspx?id=1146#article1823

State:
Arizona Solar Map
https://renewablemap.az.gov/portal/

Arizona Permitting and Policy PowerPoint from Arizona Game and Fish Department
http://www.azgfd.gov/inside_azgfd/documents/RenewableEnergyCommPresent.pdf

Guidelines for Solar Energy Development from Arizona Game and Fish Department
http://www.azgfd.gov/hgis/documents/FinalSolarGuidelines03122010.pdf
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Guidelines for Wind Energy Development from Arizona Game and Fish Department
http://www.azgfd.gov/hgis/pdfs/windenergyguidelines.pdf
Arizona State Land Department Right of Way guidelines (call department for specific application forms)
http://www.azland.gov/programs/realestate/sections/row.htm

Military:
Department of Defense Goes Green
http://www.defense.gov/home/features/2010/1010_energy/

U.S. Air Force Energy Initiatives
http://www.af.mil/energyinitiatives.aspx

U.S. Navy Task Force Energy
http://greenfleet.dodlive.mil/energy/task-force-energy/

U.S Army Energy Initiatives Task Force
http://www.armyeitf.com/

Army National Guard
http://www.arng.army.mil/aboutus/Pages/Sustainability.aspx

Industry Associations:
Solar Energy Industries Association: Major Solar Projects
http://www.seia.org/research-resources/major-solar-projects-list

American Wind Energy Association – Market Reports
http://www.awea.org/marketreports

Solar Energy Industries Association U.S. Solar Market Insight 2012 Year in Review
http://www.seia.org/research-resources/us-solar-market-insight-2012-year-review
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Native American renewable energy development resources and reports:
U.S. Department of Energy Tribal Energy Program
http://apps1.eere.energy.gov/tribalenergy/

U.S. Department of Energy Office of Indian Energy Policy and Programs
http://energy.gov/indianenergy/office-indian-energy-policy-and-programs

Military Lands and Native American Energy Projects report from NREL
http://www.nrel.gov/docs/fy13osti/57501.pdf

Geospatial Analysis of Renewable Energy Technical Potential on Tribal Lands from NREL
http://www.nrel.gov/docs/fy13osti/56641.pdf

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