A Breath of Fresh Air for America's Abandoned Mine Lands:
Alternative Energy Provides a Second Wind
This report provides information about the development of wind energy at former mining sites
for communities, including local governments, residents, and organizations, interested in
creating renewable energy resources and new economic opportunities at these sites. The report
describes the mechanics of wind energy, explores wind energy's environmental, economic, and
social impacts at former mining sites, and provides case studies and next steps to get you started.
Introduction
Atop Buffalo Mountain, a former mining site twenty-
five miles west of Knoxville, Tennessee, stand three
200-foot tall wind turbines. The white rotor-topped
towers, with blades that weigh 14,000 pounds each,
convert wind into electricity. The turbines at the
Buffalo Mountain wind farm generate 4,000 megawatt
hours of electricity annually, enough to supply
approximately 400 homes.
Five hundred miles north, in Somerset County, Pennsylvania, six 1.5-megawatt wind turbines have
been placed on a former mining site adjacent to the Pennsylvania Turnpike. The turbines at the
Somerset wind farm generate 25,000 megawatt hours of electricity annually, enough to supply
approximately 2,500 homes.
The Buffalo Mountain and Somerset wind farms are not simply examples of new wind power
projects; they are examples of innovative reuse opportunities for former mining sites. Many
communities across the United States are located in areas that once supported active mining
operations. While mining has been an important economic engine and part of these communities'
history and heritage, many mines have closed, leaving communities with vacant properties.
According to the U.S. General Accounting Office, there are between 80,000 and 250,000 abandoned
mine lands (AMLs) across the United States. AMLs include abandoned mines and the areas adjacent
to or affected by the mines. Because of safety or environmental concerns, the majority of these sites
have never been considered for any type of reuse and have long lain idle.
Wind energy may provide a significant opportunity to change this situation. Wind power, which is
a renewable energy resource that does not generate pollution, has made wind energy an increasingly
attractive way to diversify the nation's energy options. Spurred by techno logical advances and falling
costs, wind is the world's fastest growing energy source.1
Wind Turbines at the Somerset Wind Farm
1 Worldwide, there are an estimated 50,000 wind turbines in operation. While wind power currently
makes up less than one percent of energy generated annually in the United States, about $3 billion worth of wind
power projects are being proposed or planned for the next several years.
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AMLs may serve as excellent locations for wind
farms, as the requirements for a suitably-placed
wind farm and the characteristics of abandoned
mine lands maybe well-suited to each other. First,
wind farms require one critical element: a
consistent and sufficient supply of wind. AMLs
are often located in mountainous areas that receive
consistent wind flows. Second, wind energy
projects require access to large, open sites. The
size of many AMLs means that large-scale wind
turbines can be accommodated in one location.
Third, many AMLs are located near existing
infrastructure, including roads and power
transmission lines, due to prior mining activities. In
reduce project costs.
What is an AML?
Abandoned Mine Lands (AMLs) are those
lands, waters, and surrounding
watersheds where extraction, beneficiation,
or processing of ores and
minerals has occurred. These also include
sites where mining and mineral processing
waste were disposed of or deposited.
, the availability of existing infrastructure can
Wind Flow Diagram: The Creation of a Renewable Energy Resource
As a result, while AMLs may be located in areas that are ill-suited for other commercial or industrial
reuses, wind farms can be built and operated in these areas. Wind farms can provide a local
renewable energy source, enhancing economic growth, generating tax revenue, and returning lands
to productive reuse, providing communities across the United States with reuse opportunities for
former mining lands.
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Wind Energy: What is It and How Does It Work?
Wind is created by the unequal heating of the earth's surface by the sun. Wind's kinetic energy can
turn the rotor blades of wind turbines, generating electricity.
Wind turbines have four primary parts: a
tower, a rotor, a generator, and a
nacelle. The turbine's tower extends
from its base on the ground into the air
and supports the turbine's rotor. Towers
can range in height from 120 feet to 400
feet - a tower's height dictates the
maximum possible length of the turbine
blades. Generally speaking, the taller
the turbine, the greater the amount of
electricity it will produce, due to the
turbine's longer rotor blades and
potential exposure to uninterrupted,
higher-velocity winds at higher altitudes
At the top of a turbine's tower, a rotor
connected by a shaft to a generator. The rotor's glass- and carbon fiber-reinforced plastic blades can
be more than 100 feet long and are designed like airplane wings, producing lift that causes their
rotation at 16-30 revolutions per minute. As the rotor is turned by the wind, the rotor's shaft turns
the generator, producing electricity. The amount of energy that a wind turbine will produce is a
function of two factors: the diameter of the rotor's blades, which determines its "swept area," and
the amount of wind intercepted by the rotor blades. Cables carry the electricity generated by the
turbine's rotor down the turbine tower to the ground, where equipment connects the turbine to the
utility grid. The nacelle, the fourth primary part of a wind turbine, is the streamlined casing that
encloses the rotor and generator.
While there are small-scale wind turbines designed to meet the needs of individual homes and
businesses, utility-scale (750-kilowatt to two-megawatt) wind turbines are required to support
commercially viable wind farms. A wind farm is a collection of large wind turbines used to produce
electricity. A wind farm can include a handful - or more than 100 - wind turbines. Acco rding to the
American Wind Energy Association, one 1.5-megawatt wind turbine can produce 4,600 megawatt
hours of energy per year, enough to provide electricity for approximately 460 American homes.
Wind farms need to be located in areas with adequate wind resources, as a stronger wind means more
power. Wind resources are characterized by wind-power density classes, ranging from class 1 (the
lowest) to class 7 (the highest). In the United States, good wind resources (class 3 and above), which
have an average annual wind speed of 11-13 miles per hour when the wind is blowing, are found
across the country. Areas of the United States with wind resources that can support wind farms
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include the Pacific coast, the Great Plains, and the Appalachian Mountains. These areas are home
to significant numbers of former mining sites. Colorado, for example, a state with an extensive coal
and hard rock mining history, has more than 1,500 AMLs. The state receives enough energy from
class 4 and higher winds to supply 14% of the electricity required by the lower 48 states.
]V^aking the Connection: Wind Farms on Abandoned Mine Lands
The reuse of abandoned mine lands as wind farms is not a new idea. There are several of these
projects in operation, both in the United States and around the world. Wind farms on AMLs in
European countries, for example, have been providing electricity for several years. A wind farm
located on a former coal mine in Kilronan, Ireland generates 14,000 megawatt hours of electricity
annually, enough to supply approximately 2,300 homes. The Klettwitz wind farm, located on the site
of a former open-cast coal pit in eastern Germany, is the largest wind farm in Europe. In operation
since June 2000, 38 turbines at the 680-acre site generate 100,000 megawatt hours of electricity
annually, enough to supply approximately 16,400 homes. Plans for an abandoned coal mine in Forth,
Scotland, call for the construction of 67 turbines on the 2,400-acre site that could provide electricity
to 80,000 homes.
In the United States, plans for the largest wind
farm in the eastern half of the country are being
developed. Mount Storm Wind Force, a
subsidiary of the U.S. Wind Force company, is
planning to locate a 166-turbine farm on a site
honeycombed by former coal and hard rock
mining activities. Located on 10,000 acres of
land between the Potomac River, Mount Storm
Lake, and the Town of Mount Storm in West
Virginia's Tucker and Grant counties, the farm
will have the capacity to provide power for
65,000 homes. In addition, 99 percent of the
land would continue to be usable for other activities, including farming.
There are also wind farms located on abandoned mine lands in the United States that have already
moved beyond the planning stages, including the Buffalo Mountain wind farm, located in Tennessee,
and the Somerset wind farm, located in Pennsylvania.
These two wind farms illustrate that the reuse of AMLs requires sustained dedication, community
outreach and involvement, and strong working relationships. The wind farms also illustrate that the
benefits provided by the reuse of these former mining lands can be substantial. Benefits include local
job creation and economic growth, increased tax revenues from project-related spending, the
development of a local renewable energy resource, and the return of previously vacant mining lands
to productive reuse. Below, the project highlights and lessons learned at the Buffalo Mountain and
Somerset wind farms are described in greater detail.
"You could not pick a more disturbed area,"
said Tom Matthews, President of U.S. Wind
Force, referring to the company's proposed
wind farm site in West Virginia. "It is
primarily made up of reclaimed and active
strip mines, as well as abandoned deep
mines. It is an area of West Virginia from
which many of the natural resources have
already been extracted."
- Charleston Gazette, December 28, 2001
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Buffalo Mountain Wind Farm
In October 2000, Anderson County,
Tennessee became home to the first
commercial wind generation facility in the
southeastern United States. The
Tennessee Valley Authority (TVA), a
federal corporation and the nation's largest 4 . ri,
, . Anderson County, Tennessee
public power company, built a three-
turbine wind farm on a former strip mine
site on Buffalo Mountain, a high ridge located just outside the municipality of Oak Ridge. The 660-
kilowatt capacity turbines generate 4,000 megawatt hours of electricity annually, enough to supply
approximately 400 homes.
The two-acre Buffalo Mountain wind farm is located on a former strip mine operated during the
1980s by the Coal Creek Mining and Manufacturing Company. When the mine ceased operations
in 1990, the company completed reclamation activities, including backfilling and revegetating the
strip-mined areas. When TVA approached the Coal Creek Mining company about the possibility of
siting wind turbines on the property, the company was provided an opportunity to explore an
innovative reuse and generate revenue from an idle property.
The development of the Buffalo Mountain wind farm by TVA relied on extensive site research and
community involvement, effective corporate and community partnerships and working relationships,
and an emphasis on the importance of renewable energy. The following project highlights illustrate
some of the lessons learned during the development of the wind farm.
The importance of effective community outreach and communication.
The local community, as well as other agencies
and organizations, was significantly involved
throughout the project's development. A steering
committee composed of TVA staff, community
representatives, environmental organizations, and
participating power distributors oversaw the
project's development, providing input on site
design and technical issues, and held a series of
public meetings to incorporate community input
and share project information. According to Rick
Carson, TVA's Renewable Energy Program
Manager, community involvement in the project's
development led to community support for the
Buffalo Mountain wind farm. "The community,"
he said, "including local residents who had
Wind Turbines at the Buffalo Mountain Wind Farm
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worked in the coal mining industry, was
enthusiastic about the reuse of the property."
The importance of strong working
relationships that can provide the funding
and technical expertise necessary for wind
projects.
Before TVA could build the wind park, the
agency first had to work in close coordination
with several public and private entities. TVA
negotiated with the Coal Creek Mining and
Manufacturing Company to be able to lease and
site the wind farm on their property, while the
energy consulting company, AWS Scientific,
was hired to assess potential turbine sites.
Lowe Excavating, a construction company,
provided road improvement and site clearance
services, while Tennessee Communications, a
communications company, installed two miles of
power lines connecting the wind turbines to the
local power grid. Enxco, Inc., an energy
company specializing in renewable energy, was
hired to develop the wind farm and provide
ongoing operations and maintenance services.
Clinton Utility Board, the local power
distributor, agreed to maintain the wind farm's
connection to the local power distribution
network.
Thefinancial and timing benefits provided
by the site's remediation and the site's
proximity to existing infrastructure.
Site History
1980s
Buffalo Mountain wind farm
site mined by Coal Creek
Mining and Manufacturing
Company
1990
Mining operations at the site
cease
1990
Reclamation of land from
mining activities at the site
begins
1999
TVA conducts wind resource
and environmental
assessments of the mine site
1999
Site prepared for wind
turbines: gravel roads
upgraded for site access,
vegetation cleared, power
lines upgraded
2000
Turbines installed at the site;
turbines tested and connected
to distribution system
2000
Buffalo Mountain wind farm
in operation
TVA was able to move rapidly from design to implementation of the wind farm in little more than a
year for two reasons. Prior remediation work completed by the Coal Creek Mining and
Manufacturing Company, which included capping open mine shafts and using vegetation to reduce
soil erosion, meant that TVA did not need to pursue additional cleanup activities. Second, the site's
close, two-mile proximity to existing infrastructure, including roads and power transmission lines,
meant that site preparation costs for the Buffalo Mountain wind farm were reduced.
Results
Three wind turbines were installed on Buffalo Mountain in 2000. Today, as part of TVA's Green
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Switch Program, developed to provide customers with access to renewable energy resources, the
turbines are part of a renewable energy network that provides power to 5,800 residential customers
and 300 business customers. As of April 2003, the three turbines had produced 9,500 megawatt
hours of electricity. The wind farm's success has resulted in plans for additional turbines to expand
the wind farm's capacity from two to 29 megawatts. In January 2003, TVA signed a 20-year
purchase agreement with Invenergy, a Chicago-based energy development company, to add 18 1.5-
megawatt wind turbines to the wind farm. The turbines will be in place by November 2003.
^'1
Somerset Wind Farm
Somerset County, Pennsylvania is located in
southwestern Pennsylvania's Laurel Highlands.
The county's wind resources and high elevations
mean that the county is a potential candidate for
the location of wind farms. While the county's
traditional manufacturing, coal mining, and
agriculture base continues to sustain the area's Somerset County, PA
economy, wind energy has provided a new
opportunity for economic diversification and the reclamation and reuse of an AML. In October 2001,
Somerset Windpower LLC, a joint venture between power companies Zilka Renewable Energy and
Atlantic Renewable Energy, began operating six 1.5-megawatt wind turbines on farmland adjacent
to the Pennsylvania Turnpike. The turbines at the Somerset wind farm generate 25,000 megawatt
hours of electricity annually, enough to supply approximately 2,500 homes.
The 400-acre Somerset wind farm is located on farmland that was previously used by two different
mining operations. In the early 1960s, the land was strip-mined for coal by Svonavec Inc., removing
much of the land's surface soil. In the 1980s, PBS Coal
Company deep-mined the same area for coal, creating
underground shafts. The former coal mines on the wind
farm were cleaned up between 1987 and 1990, using
funds set aside by the two mining companies. The
mined areas were backfilled with soil to recreate the
land's original contours.
The development of the Somerset wind farm by
Somerset Windpower LLC relied on extensive site
research, innovative construction approaches, and
effective corporate and community partnerships and
working relationships. The following project highlights
illustrate some of the lessons learned during the
development of the wind farm.
Students Visiting Somerset Wind Farm
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The selection of an AML site within an
existing community with access to
infrastructure.
The Somerset wind farm illustrates that wind farms
can be located on AMLs within existing
communities. The site was selected for two reasons:
sufficient wind power and the availability of
infrastructure. Prior mining activities meant that
roads and power transmission lines were already in
place, reducing project costs.
The importance of strong working
relationships that can provide the funding and
technical expertise necessary for wind energy
projects.
Once the site for the Somerset wind farm had been
selected, several corporations, including Zilka
Renewable Energy, Atlantic Renewable Energy,
General Electric, Exelon Powerteam, and
Community Energy, Inc., formed working
relationships to turn the site into a successful,
functioning wind farm. Two power companies,
Zilkha Renewable Energy and Atlantic Renewable
Energy, entered into a joint venture called Somerset
Windpower LLC to design and build the wind farm.
General Electric signed on to provide routine
operations and maintenance services. Exelon
Powerteam, a wholesale power marketing company,
signed a 20-year agreement to buy the power
produced by the Somerset wind farm Exelon
Powerteam worked with Community Energy, Inc.,
an energy-sector consulting company, to market the
power to universities, corporations and residences
under the name "New Wind Energy."
Innovative construction approaches can allow
for the presence of wind farms in areas that
may be inaccessible or otherwise cost-
prohibitive.
Somerset Wind Farm:
Turbine Siting Preparation
Step I: Checking the stability of each
proposed turbine location
if!
Step 2: Building each turbine's steel-
reinforced concrete foundation
¦
Step 3: Checking the stability of each
turbine's foundation
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Because of the prior mining activities at the Somerset wind farm site, additional analysis and
remediation was required to ensure that the site's surface was structurally strong enough to support
the weight of the six wind turbines. Sixteen-foot perimeter holes were drilled under each of the
turbine sites and 15-ton weights (approximating the weight of the turbines) were then inserted into
the holes to identify any structural weaknesses. Steel-reinforced concrete foundations were poured
for each of the turbines - each foundation contains 180-200 cubic yards of concrete and 23,000-
26,000 pounds of reinforced steel.
Somerset Windpower LLC also developed strategies to address unique on-site situations. One wind
turbine, for example, was sited on a tract of land that was formerly deep-mined, potentially
compromising the stability of the wind turbine's foundation. The turbine was centered over the
mine's stable main heading corridor and concrete was poured into the shaft to stabilize the structure
before pouring the turbine's foundation. In addition, a tilt sensor was installed on the turbine to
detect subsidence that could compromise the turbine's foundation.
Results
The Somerset wind farm has shown that with careful planning, the use of turbines to harness the
power of wind can successfully create clean, usable energy. Penn State University has purchased the
output from five of the six turbines at the wind farm for the next five years, the largest retail purchase
of wind energy in the United States. As a result, more wind farms are under development. Somerset
County is already home to more wind turbines than any other county in Pennsylvania, and two new
wind farm projects are under development in the county. One of the projects, a 20-turbine site, is
being developed on a former mining area and landfill located adjacent to Somerset wind farm. Across
Pennsylvania, construction of up to 50 new turbines is anticipated in 2003.
Impact Assessment: Environmental, Economic, and Social Impacts Associated with the Reuse
of Abandoned Mine Lands as Wind Farms
The Buffalo Mountain and S omerset County wind farm examples illustrate how wind energy projects
at AMLs can generate successful renewable energy resources and provide opportunities for
communities to return former mining sites to productive reuse. However, while wind farms located
at AMLs have proven successful for these localities in Tennessee and Pennsylvania, do they represent
a reuse option that might make sense for former mining sites in your community?
To help your community answer this question, this section reviews the range of environmental,
economic, and social impacts created by the reuse of abandoned mine lands as wind farms. The
section also provides anecdotal evidence describing how other communities have addressed these
impacts and determined the degree to which wind energy represented a significant opportunity to
reuse local AMLs.
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Environmen tal Impacts
The reuse of abandoned mine lands
as wind farms provides two primary
environmental benefits. First, the
location of wind farms on former
mining sites has the potential to
provide a market-based incentive to
remediate hazardous waste sites
and brownfield sites that may be
contaminating local streams,
groundwater, soils, or even entire
watersheds. Without the existence
ofpotentialeconomic returns, many
of these properties may otherwise
remain vacant or continue to
contaminate the local environment
until a state or federal cleanup
program addresses contamination
issues. The location of wind farms
on abandoned mine lands can
potentially result in remediated
properties, restored ecosystems and
wildlife habitat, and improved water
quality.
The Case for Wind Power
Wind energy is a free, inexhaustible natural resource and
a source of clean, non-polluting electricity. The U.S.
Department of Energy estimates that using one utility-
scale wind turbine prevents the annual emission of 5,000
tons of carbon dioxide, a greenhouse gas that contributes
to global warming.
Traditional energy sources
like coal and oil, in
contrast, generate
byproducts at each stage of
the generation process.
Mining depletes natural
resources, degrades the
environment, and destroys
wildlife habitat. Acid mine drainage destroys stream and
river ecosystems and threatens the health of people and
wildlife. Power plants that generate electricity from oil
and coal produce heavy metals and greenhouse gases as
byproducts.
*
Second, wind farms represent a renewable energy resource that can provide an inexhaustible source
of clean, non-polluting electricity. Unlike conventional power plants, wind plants emit no air
pollutants or greenhouse gases. In 1990, according to the U.S. Department of Energy, California's
wind farms - which generate approximately two percent of the state's total energy output - offset
the emission of more than 2.5 billion pounds of carbon dioxide, and 15 million pounds of other
pollutants that would have otherwise been produced. It would take a forest of 90 million to 175
million trees to provide the same air quality. The Department of Energy estimates that using one
utility-scale wind turbine prevents the annual emission of5,000 tons of carbon dioxide, a greenhouse
gas that contributes to global warming. Energy produced from traditional sources like coal and oil,
in contrast, generates byproducts at each stage of the generation process, leading to increased air
pollution, and, in the case of coal mining, acid mine drainage.2
The environmental limitations associated with wind farms - at abandoned mine lands and in general
- revolve around the turbines' potential threat to wildlife, primarily bats and local and migratory bird
2
" Recognizing these benefits, the Department of Energy has developed grant- and incentive-based
programs to promote the development of wind energy resources. The Resources section of this report and
Attachment A provide additional information.
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populations. These concerns have arisen
largely in response to the high number of bird
kills at one wind farm located in Altamont
Pass in California, where 183 birds, including
five bald eagles, were killed by turbine rotor
blades between 1990 and 1992. Changes in
turbine technology - including additional
lighting, the redesign of turbine nacelles to
eliminate bird nesting opportunities, and
slower blade rotations, which make the
turbines easier for birds to see and avoid - have reduced their potential threat to wildlife. A 2001
National Wind Coordinating Committee (NWCC) study, indicated that, on average, approximately
two birds are killed per turbine per year.
In some states, companies considering new locations for wind farms must also submit environmental
impact statements before proceeding with projects. At the Buffalo Mountain Wind Farm, an
environmental assessment was conducted to ensure that the wind farm would not negatively impact
the natural environment.
Economic Impacts
The potential economic benefits provided by wind energy at AMLs include local job creation,
economic growth and diversification, and increased tax revenues.3 Wind energy can help revitalize
economies by creating new businesses and jobs, and by keeping energy dollars circulating within local
economies. Several recent studies have analyzed wind energy data to quantify these benefits. A
nationwide 2001 study by the Center for Renewable Energy and Sustainable Technology concluded
that wind farms create 40 percent more jobs per dollar invested than coal plants. The European Wind
Energy Association estimates that every megawatt of wind capacity creates about 15-19 jobs, or
about five times more jobs per dollar invested than coal or nuclear power.
Locating a wind farm at an AML can also benefit the local economy through the purchase of local
goods and services. During the construction of the wind farm, companies and contractors require
equipment and support services, while their employees require services like food and lodging.
Following construction of a wind farm, companies and contractors and their employees continue to
require local goods and services as the farms are maintained, repaired, and upgraded over time.
Studies that have assessed the scale of local economic benefits provided by wind farms have reached
different conclusions. One study for a wind developer cited by the NWCC concluded that the
operation of a 100-megawatt wind farm would generate approximately $500,000 in annual local
purchases. A 1995 report from California's Kern County Wind Energy Association, in contrast,
concluded that the county's local economy gains $ 11 million annually from the purchase of goods and
3
Additional tax revenues are generated from increased local spending on goods and services during the
construction and operation of a wind farm.
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services for wind energy projects. The county's total economic gain includes new tax revenues
generated by the purchases. Kern County, which contains 4,600 wind turbines with a total generation
capacity of 1,400 megawatts, is home to the largest cluster of wind farms in the United States.
The local revenue derived from a parcel of
land can be significantly increased by the
addition of wind turbines. Wind turbines
provide an additional source of revenue,
particularly at sites like AMLs where the
land is either not in use or is in agricultural
use. Wind farms can be integrated with
existing agricultural uses. For example, at
the Somerset wind farm, property owner
Robert Will receives two percent of the
turbines' production revenue as payment for
allowing the turbines to be sited on his land.
In total, each turbine generates $3,000 to $3,500 each year in revenue for the property owner, while
Mr. Will retains the ability to farm most of his property.
Even though the cost of generating wind energy has decreased dramatically in the past ten years, the
technology does require a higher initial investment than fossil-fueled generators. Roughly 80 percent
of a wind farm's startup cost is its machinery, with the balance being the site's preparation and
installation. However, if wind farm systems are compared with fossil-fueled systems on a "life-cycle"
cost basis (counting fuel and operating expenses for the life of the generator), wind costs are much
more competitive with other generating technologies because there is no fuel to purchase and minimal
operating expenses. The construction and operating costs associated with wind energy will also
continue to decrease over time. New, utility-scale wind projects are being built in the United States
today with energy generation costs ranging from3.9 cents per kilowatt-hour (at windy sites in Texas)
to five cents or more (in the Pacific Northwest), costs that are competitive with the direct operating
costs of conventional forms of electricity generation.
Wind energy's remaining major economic limitation is its status as an intermittent power supply.
While the wind is an inexhaustible, renewable natural resource, it does not blow all of the time, and
cannot be guaranteed to come online during periods of high energy demand. Organizations like the
Tennessee Valley Authority at the Buffalo Mountain wind farm are working to develop energy
storage facilities for wind farms that would enable the power generated by wind turbines to be stored
and released at times of high energy demand.
Social Impacts
Wind farms located on AMLs can provide several social benefits, serving as local landmarks and a
source of community pride. At the Somerset wind farm, for example, the striking silhouette of the
wind turbines has provided a new local point of reference, and even attracted tourists passing by on
"We're the only family in Pennsylvania milking
cows next to windmills. It's a way to make a
little extra money, and it doesn't take much of
your land. It does not disrupt your way of
farming."
- Property Owner Robert Will in the Patriot
News, February 2nd, 2002
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the nearby Pennsylvania Turnpike. Robert Will, the property's landowner, has come to expect a
regular flow of visitors on weekends, drawn to look at the turbines.
Wind farms can also generate community concerns about the potential noise levels and aesthetics
associated with wind turbines. Turbine noise levels have decreased substantially - a single modern
wind turbine is barely audible. The American Wind Energy Association estimates that a wind turbine
located 250 meters from a residence generates about as much noise as a kitchen refrigerator. A wind
farm with multiple turbines, however, will generate more sound and the appropriate siting of the
proposed wind farm in relation to surrounding land uses may need to be considered during the
planning and siting process.
Community aesthetic concerns can center around the size, design, and visual prominence of the wind
turbines, which may significantly alter a community's skyline. Turbines' shadow patterns and night-
lighting can also create a visual nuisance if sited near residences and businesses. Turbines' shadow
patterns and night-lighting can be addressed by planting trees or installing screens. Aesthetic
concerns, however, can be more difficult to address, as people's preferences can vary. Some people
like the profile of wind turbines, for example, while others find them visually disruptive. Community
outreach and education efforts can help ensure that all community members are included in the
planning process from the outset. During community meetings, community members can express
their concerns, learn about wind energy, and work with other community members and interested
parties, including local officials, residents, organizations, and energy providers, to ensure that
proposed wind farm projects are appropriately designed, well-sited, and ultimately successful.
(jetting Started
As your community evaluates its interest in pursuing wind power as a reuse option for local
abandoned mine lands, there are several important factors to consider. These factors include:
Sustained Community Involvement
Active, sustained community involvement is critically important from the outset of any community
planning process, and can help determine the extent to which wind power may be able to meet local
environmental, economic, and social needs. Discussion of community priorities can also help to
identify potential community concerns, like noise levels or aesthetics, associated with the location of
wind turbines on local AMLs.
Community discussions about potential reuse opportunities at local AMLs need to include a diverse
range of stakeholders, reflecting the local and regional impact of former mining sites on economies,
communities, and ecosystems. Stakeholders in an effective, inclusive process may include local
government officials, citizens, and local organizations, previous site landowners and operators,
current or future landowners, potential developers, Tribal interests, and state and federal agencies
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with potential oversight responsibilities at a site. Additional interested parties may include wind
energy corporations and power companies, wildlife organizations, and renewable energy
organizations. These organizations may be able to provide key technical support and funding
resources.
* Understanding of Land Ownership Issues
The community's efforts to evaluate local AMLs as potential locations for wind farms will require
close coordination with the owners of these former mining sites. Landowners may be aware of the
potential benefits provided by wind energy, or may need to work with the community to determine
whether a wind farm represents an opportunity to return their property to successful reuse.
The community may also need to clarify and resolve several land ownership issues. Former mining
sites often have multiple owners, including individuals and mining companies. Outstanding mining
claims may need to be resolved. Properties may have separate surface and mining rights that are
owned by different entities. In each case, the community will need to contact and develop working
relationships with the owners of the properties or mining rights at each AML as early as possible in
the planning process.
Site Feasibility
As your community establishes an
inclusive community involvement
process and addresses site
ownership issues, the community
can begin to effectively evaluate
the feasibility of wind power as a
reuse option for local AMLs.
The technical feasibility of
locating a wind farm on a local
AML depends on the availability
of sufficient wind resources,
suitable location characteristics,
and existing infrastructure.
Energy resource maps can help
the community determine if the
site is located in an area that
receives sufficient wind resources.
Potential wind farm sites at AMLs must also include adequate space for large-scale turbines and open
areas located away from buildings, which obstruct wind flow. Finally, the community will need to
determine, using local electric power system maps and general area maps, whether AMLs are located
in close proximity (typically within two miles) of existing infrastructure. Sites located adjacent to
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existing roads and power transmission lines mean that wind turbines can be installed and connected
to the power grid with reduced cost.
Community Considerations: Evaluating the Potential Reuse of a Local AML
Communities considering the potential reuse of a local AML as a wind farm can work through the following
evaluative steps. For information about wind energy consultants that can provide the services described
below, please refer to the American Wind Energy Association (AWEA)'s web site at www.awea.org/directorv.
Identify AML sites and their wind energy potential, based on the availability of wind resources, site
location, and the availability of existing infrastructure like roads and power transmission lines, which can
reduce costs. Wind resource maps such as the Pacific Northwest Laboratory's Wind Energy Resource
Atlas (online at rredc.nrel.gov/wind/pubs/atlas) and data from the National Climatic Data Center (online
at www.ncdc.noaa. gov) can be used to assess local wind resources. Maps of local electric power systems
and general area maps can help determine the availability of existing infrastructure.
Secure access to the site. Work with AML property owners to explore the potential benefits provided by
wind energy at each site and determine their level of interest.
Explore and address the social and environmental factors that may affect the project, including raptor
activity, endangered species in the area, the site's geology, community concerns about noise and
aesthetics, cultural and historical factors, and local air traffic issues.
Arrange for a professional appraisal of the site's wind resources. A professional appraisal of the site's
wind resources involves the construction of meteorological towers equipped with anemometers,
instruments that measure wind force and speed. Based on one-year's worth of data from these
instruments, a meteorologist can prepare a site report that describes the area's wind resources.
Companies that provide these services can be found on AWEA's website, listed above.
Obtain the services of a professional familiar with the regulatory environment surrounding wind power
development. These services can help ensure that relevant state and federal regulations like
environmental impact statements are identified and addressed early in the planning process.
Identify a wind energy developer that would be interested in discussing the possibility of locating a wind
farm on the site. Attachment B at the end of this report provides a list of wind energy developers.
Identify a reliable power purchaser and secure tentative commitments from one or more buyers for the
wind farm's output. Local, regional, and national utilities, as well as other entities, including universities
and businesses, are potential purchasers of a wind farm's output. Local utilities will also need to be
contacted to ensure access to the area's existing power transmission network.
Establish access to sufficient capital to support the cost of constructing a wind farm - approximately $1
million per megawatt. National and international lenders, including investment banks, insurance
companies, and foreign investors, typically supply 50-90 percent of wind projects' capital costs, with
project sponsors providing the remainder of the project's funding.
Secure an agreement with a company to provide operations and maintenance services for the wind
turbines. Companies that provide these services can be found on AWEA's website, listed above.
15
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Community Resources
For communities interested in pursuing wind energy as a reuse opportunity for a local abandoned
mine land, there are a wide range of existing programs and incentives that are available. Types of
assistance that are available include grant funding, technical assistance, and tax credits. Some of these
incentives, such as tax credits, target the private sector, spurring companies to develop wind farms.
However, communities can access most of the resources that are available and receive financial
assistance, information, and technical advice from organizations and agencies that specialize in the
development of wind energy resources at AMLs.
Two federal agencies, the Department of Energy (DOE) and the Environmental Protection Agency
(EPA), have developed programs that can assist communities as they explore wind energy reuse
opportunities for AMLs. DOE has programs that provide financial incentive payments to public and
non-profit renewable energy producers for the development of renewable energy resources, funding
for community-based education, training, and information dissemination activities, and cost-sharing
funding for state and industry renewable energy partnerships.
In particular, DOE's Rebuild America program can serve as a valuable resource for communities
pursuing reuse opportunities at AMLs. The Rebuild America program is a network of hundreds of
community-based partnerships across the nation that are dedicated to improving the quality of life in
communities through energy efficiency solutions. The program provides financing and technical
assistance to help communities identify, prioritize, and solve energy-related problems.
EPA's AML Tearn is also an important resource that canprovide communities with technical support
and resources as they explore reuse opportunities available at AMLs. EPA's AML Team can work
in partnership with communities to clarify EPA's interests at former mining sites and address potential
obstacles to reuse planning at these sites. In the future, the Team will also be developing databases,
case studies, and other tools and resources to help communities pursue wind energy as a dynamic
reuse opportunity for local AMLs.
Attachment A provides additional information about available federal and state-level programs
and incentives, including the programs described above, as well as a list of additional wind energy
resources. Because of the large number of state-level programs, the section provides links to two
listings with information about these programs. Each of these programs have been highlighted
because they can provide your community with helpful services and funding as it considers wind
energy reuse options for local abandoned mine lands. Attachment B provides contact information
for wind energy developers and consultants that are members of the American Wind Energy
Association (AWEA). Attachment C lists the sources used during the development of this report.
16
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Conclusions
Wind energy provides a significant opportunity for communities to reuse abandoned mine lands.
By returning AMLs to productive reuse as wind farms, communities can benefit from the potential
cleanup of these vacant, idle properties, as well as from economic benefits that include local job
creation, economic growth and diversification, and increased tax revenues. To pursue these
benefits, communities will need to evaluate local wind resources and establish strong working
relationships with site landowners and wind energy providers. As the Buffalo Mountain and
Somerset wind farms illustrate, these projects will also require sustained community interest and
innovative financing and design approaches. The end result: AMLs reclaimed as wind farms that
can help communities find new answers to long-standing economic and environmental questions.
The opportunities await.
Contact Information
Interested in pursuing potential wind energy opportunities for a local AML site? For
additional information, there are several federal resources that are available.
For information about the Department of Energy's Rebuild America Program, please
contact Elizabeth Freed at 202-564-5117 or Martha Otto at 703-603-8853.
For information about EPA's AML Team, please contact Joan Fisk at 703-603-8791 or
Shahid Mahmud at 703-603-8789.
For additional information about the Buffalo Mountain wind farm, contact Rick Carson,
TVA's Renewable Energy Program Manager, at 423-751-7461.
For additional information about the Somerset wind farm, contact Jim Webb, Project
Administrator at the Florida Power & Light Company, at (304) 463-3339.
The EPA Superfund Redevelopment Initiative website, at
www.epa.go v/superfund/programs/rec ycle. also provides tools, case studies, and resource
information addressing the reuse of Superfund sites, including AMLs.
17
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Attachment A: Federal and State Resources
Program Name
Agency
Program Description
Contact Information
Renewable Energy Prod. Incentive
DOE and IRS
Financial payments for public and non-profit sector
renewable energy producers
www.eren.doe.aov
www.nrel. gov
Wind Biomass Renewable
Electricity Production Credit
IRS
Tax incentives for private sector renewable energy
producers
www.irs.aov
Solar, Wind, and Geothermal
Modified Accelerated Cost
Recovery System
IRS
Corporate depreciation tax deduction for investments
in renewable energy technologies
www.irs.gov
Competitive Financial Assistance
DOE, Office of Energy
Efficiency Renewable
Energy
Grant funding for public outreach, training, and
technical assistance related to energy efficiency and
renewable energy
www.eren.doe.aov
e-center.doe.aov
National Industrial Competitiveness
through Energy, Environment, and
Economics (NICE3)
DOE, Golden Field
Office
Grant funding for state and industry partnerships that
emphasize energy efficiency and clean production
technologies
www. golden .doe. gov
Native American Anemometer Loan
Program
DOE, National
Renewable Energy
Laboratory
Provision of anemometers and installation equipment
for measurement of wind resources on tribal lands
www. eren. doe. gov/windDower
ingamerica/na anemometer lo
an. html
Green Power Partnership
EPA
Technical assistance for institutions that use renewable
energy resources
www.eua. gov/ greenDower/ioin
/ioin.htm
Database of State Incentives for
Renewable Energy
State programs
Tax credits, loans, and grants for renewable energy
resources
www.dsireusa.org
Inventory of State Incentives for
Wind Energy in the U.S.
State programs
Wind resource information and wind energy-related
financial, economic, and regulatory incentives
www. awea. or g/ mibs/inventorv.
html
18
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Program Name
Agency
Program Description
Contact Information
Illinois Renewable Energy
Resources Program
Illinois Department of
Commerce and
Community Affairs
Grant funding for projects focused on the use of
renewable energy resources in Illinois
www. comm erce. st ate. il. us/co
m/Ddf/RENEWABLE%20ENE
RGY%20RESOURCES%20Gr
ant.pdf
Additional Wind Energy Resources
The American Wind Energy Association (AWEA) is a national trade association
that promotes wind power as a renewable energy resource.
www.awea.org
The National Renewable Energy Laboratory (NREL) is DOE's premier laboratory
for renewable energy research and development.
www.nrel. gov
The National Wind Technology Center is the subgroup of NREL that focuses on
wind energy.
www.nrel.gov/wind
The National Wind Coordinating Committee (NWCC) supports the development
of sustainable commercial markets for wind power.
www.nationalwind.org
The Golden Field Office manages many of DOE's renewable energy programs.
www.golden.doe.gov
AWEA policy document that describes wind energy development efforts around
the world.
www. a wea. or g/D olic v/inc ent iv es. html
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Attachment B: Contact Information for Wind Energy Companies and Consultants
The list below provides contact information for wind energy developers and consultants that are
members of the American Wind Energy Association (AWE A). For a comprehensive listing of
wind energy developers, operators, consultants, and turbine manufacturers, please refer to
AWEA's online directory at www.awea.org/directory.
ABB Power: www.abb.com
AEP Energy Services, Inc.: www.aep.com
Atlantic Renewable Energy Corp.:_
www.atlantic-renewable.com
Black & Veatch Corp.:
www2.bv.com/energy/index.htm
CalWind Resources, Inc.: www.calwind.com
Catamount Energy Corp.: www.catenergy.com
CHI Energy, Inc.: www.chienergy.com
Cielo Wind Power LLC: www.cielowind.com
Clipper Windpower LLC: www.clipperwind.com
Distributed Generation Systems, Inc.:
www, di s gen onl in e. com
DP Energy Ltd.: www.dpenergy.com
EAPC Architects & Engineers: www.eapc.net
Endless Energy Corp.: www.endlessenergy.com
Energy Unlimited, Inc.: www.eui-windfarm.com
enXco: www.enXco.com
Eurus Energy America Corp.:
www.eurusenergy.com
FPL Energy, Inc.: www.fblenergy.com
Foresight Energy Company:
www.foresightenergy.com
GE Wind Energy: www.gewindenergy.com
Generation Resources Holding Co.:
www.grhc.biz
Global EnerCom Management:
www, gem en gr. com
Global Winds Harvest, Inc.:
www, globalwinds. com
Green Mountain Energy Company:
www.gr eenmountain. com
Greenlight Energy, Inc.: www.glnrg.com
Guascor North America: www.guascor.com
International Applied Engineering:
www.iaeinc.com
LG&E Power. Inc.: www.lgeenergy.com
M.A. Mortenson: www.mortenson.com
Midwest Renewable Energy Corp.:
www.midwest-renewable.com
National Wind Power, Ltd.:
www.natwindpower. com
NedPower US LLC: www.nedpower.com
Northern Alternative Energy, Inc.:
www, windpower. com
North American Renewables Corp.:
www.narenewables.com
Oak Creek Energy Systems, Inc.:
www.oakcreekenergy.com
Orion Energy, LLC: www.orion-energy.com
PB Power, Inc.: www.pbworld.com/power
Pacific Winds, Inc.: www.powerworksinc.com
Renewable Energy Systems (USA), Inc.:
www.res-ltd.com
Sea West WindPower, Inc.:
www.seawestwindpower.com
Specialized Power Systems, Inc.:
www.spswind.net
Superior Renewable Energy:
www.superiorrenewable.com
Tenderland Power Company:
www.tend erland .com
Tennessee Valley Infrastructure Group:
www.tvi group, com
United American Energy Corp.:
www.uaecorp.com
US Wind Force, LLC: uswindforee.com
Wintec Energy. Ltd.: www.wintecenergy.com
Zilkha Renewable Energy: www.zilkha .com
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Attachment C: Acknowledgments
Information for this report was gathered from various reports, papers and online sources,
categorized below:
General Wind Energy Information
the U.S. Department of Energy's Wind Energy Program website, at
www, eren.doe. go v/wind/ho meowner.html.
the 1995 book Wind Energy Comes of Age by Paul Gipe.
the 1995 book Renewables Are Ready by Nancy Cole and P.J. Skerret.
the Appalachian Mountain Club's 1996 General Policy on Windpower, at
www.nationalwind.org.
the U.S. Department of Energy's 2000 fact sheet Wind Powering America: Clean Energy for
the 21s' Century.
the March 2000 Smithsonian article "A Second Wind."
the August 2002 Time article "The Winds of Change."
the August 16, 2002 USA Today article "Wind Energy Generates Income."
the August 20, 2002 Washington Post article "Windmills on the Water Create Storm on Cape
Cod."
the American Wind Energy Association's website, at www.awea.org.
the National Wind Coordinating Committee's wind energy fact sheets, at
www.nationalwind.org.
AML-Related Information and the Buffalo Mountain and Somerset Wind Farms
the December 4, 2001 Elizabethton Star article "Windmills on the Mountain? TVA Project
Could Boost Tourism," at www.starhq.com/html/localnews/1201/120401 Windmills.html.
the December 28, 2001 Charleston Gazette article "Grant Wind Farm will be Largest in East."
the Oak Ridge Nuclear Laboratory's website, at www.oml.gov.
the Tennessee Valley Authority's Green Power Switch and Public Power Institute programs
websites, at www.tva.gov/greenpowerswitch/index.htm.
the Powering the South organization's website, at www.poweringthesouth.org.
the Community Energy, Inc.'s New Wind Energy program website, at
www.newwindenergy.com
the August 2002 Progressive Engineer article "A New Crop Takes Root," at
www.progressiveengineer.com/frm back.htm.
October 2002 and January 2003 interviews with Gary Verkleeren, Zilkha Renewable Energy.
October 2002 interview with Robert Will, Somerset wind farm landowner.
the Pennsylvania Department of Environmental Protection website, at www.dep.state.pa.us.
21
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Environmental, Economic, and Social Impact Assessment Information
the Fall 1995 Land and Progress article "Wind Energy Creates Jobs, Power in East Kern."
the 1997 European Wind Energy Association report Wind Energy in Europe - The Facts, at
www, ewea ,o rg/doc/ ewea .p df.
the U.S. Department of Energy's 2000 fact sheet Wind Powering America: Clean Energy for
the 21s' Century.
the August 2001 National Wind Coordinating Committee report Avian Collisions with Wind
Turbines: A Summary of Existing Studies and Comparisons to Other Sources of Avian
Collision Mortality in the United States, at www.nationalwind.org.
the October 2001 AgJournal article "Wind Energy Investment Benefits Landowners," at
www.agiournal.com
the October 2001 Perm Almanac article "Wind Energy to Power Penn," at
www, up enn. edu/ almanac/ v4 8/nl 0/WindPower.html.
the November 2001 Renewable Energy Policy Project report The Work That Goes Into
Renewable Energy, at www.repp. or g/repp.
the December 2002 Grist article "Tilting at Windmills: Activists Are Split on Proposed Project
Off Cape Cod," at www.gristmagazine.com
February 2, 2002 Patriot News article, at www.pennlive.com/patriotnews.
the American Wind Energy Association's website, at www.awea.org.
the U.S. Department of Energy's Wind Energy Program website, at
www.eren.doe.gov/wind/homeowner.html.
the Pennsylvania Department of Environmental Protection's Wind Farming fact sheet, at
www.dep.state.pa.us.
the Office of Surface Mining, Reclamation, and Enforcement website, at
www, do i. go v/pfm/ ar 4o sm html.
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