100000041

Renewable Energy Projects at Mine Sites

Progress and Highlights from Across the Country

This fact sheet highlights renewable energy projects at
current and former mining sites. These include active
utility-scale energy production and green remediation
projects, as well as planned projects and renewable
energy assessments.

Active Projects

Chevron Questa Mine (Questa, New Mexico)
Molybdenum, mining and related activities began at the
site in 1920. Years of open-pit mining resulted in over
a million tons of waste rock around the open-pit area.
Seepage and surface water runoff over mining waste
piles contaminated area groundwater and soils.

Chevron, the potentially responsible party, coordinated
with EPA and state agencies during cleanup planning,
enabling construction of a 1-megawatt (MW)
concentrated photovoltaic (CPV) solar facility over
20 acres of the site. The 175-panel facility has been
operating since April 2011. Today, it is the largest
facility of its kind in the United States. A local energy
cooperative purchases the energy through a 20-year
purchase agreement. The solar facility generates enough
electricity to power about 300 homes.

For more information, check out EPA's in-depth case
study: New Energies: Utility-Scale Solar on a Tailing
Disposal Facility.

Leviathan Mine (Alpine County, California)

At this remote, high-elevation site, open-pit mining

wastes cover 253 acres. Acid mine drainage has affected

The CPV facility uses lenses to concentrate sunlight
and maximize direct solar radiation, (source: Chevron)

EPA Abandoned Mine Lands
Renewable Energy Support

As part of EPA's interest in encouraging renewable energy
development on current and formerly contaminated land
and mining sites, EPA's Abandoned Mine Lands (AML) Team
works with Regional offices to provide technical and analytic
support to communities and other mining site stakeholders to
explore alternative energy opportunities. Support is provided
through pre-feasibility energy analyses and other forms of
technical services. Mine sites where EPA's AML Team has
provided technical and community support include:

•	ASARCO Mission Mine (Arizona)

•	Brewer Gold Mine (South Carolina)

•	Chevron Questa Mine (New Mexico)

•	Chino Mine (New Mexico)

•	Iron King Mine-Humboldt Smelter (Arizona)

•	McKinley Mine (New Mexico)

•	Summitville Mine (Colorado )

For more information about EPA's AML Team technical and
analytic support services, please contact Shahid Mahmud at
mahmud.shahid@epa.gov or visit: www.epa.gov/ami.

U.S. Environmental Protection Agency
Abandoned Minelinds Team

2015 Update

f

1

-------
Superfund and Green Remediation

Green remediation strategies maximize the environmental
benefits of cleanups. There are green remediation opportunities
throughout the Superfund process, from early investigations
and cleanup planning to remedy implementation and long-
term operation and maintenance activities.

Best practices include the use of renewable energy and
cleaner burning fuels, water conservation, green reuse designs
following cleanup, greenhouse gas emission reduction
technologies, and waste reduction and recycling programs.

For more information about EPA's Superfund Green
Remediation Strategy, visit: www.epa.gov/superfund/
greenremediation.

waterways as far as nine miles downstream. A feasibility
study by Atlantic Richfield, the potentially responsible
party, is looking into estimated power needs for the
site's long-term cleanup. With no access to the power
grid and winter snows preventing transport of fuel to
the site for half the year, the use of renewable energy
could enable water treatment to take place for longer
periods.

Funded by a grant from EPA's RE-Powering America's
Land Initiative, the National Renewable Energy Lab
(NREL) analyzed how renewable energy resources,
including wind and solar, could power the cleanup.
NREL installed wind and solar data collection units
to study the area's wind and solar resources. The study
found adequate resources for solar development. Today,
small solar units warm a bioreactor control room year
round and power monitoring equipment and data
transmission instruments.

Pennsylvania Mine (Keystone, Colorado)

This silver, lead and zinc mine operated from 1879 to
the 1930s, producing over $3 million worth of precious
metals. Mining contaminated Peru Creek, a tributary in
the Snake River watershed, with heavy metals. EPA is
currently working to stabilize residual mining waste to
prevent future contamination. The Colorado Division
of Mines, Reclamation and Safety is plugging surface
water pathways and mine tunnels to reduce the flow of
contaminated water.

These efforts would normally require diesel fuel
generators to power construction lighting, tools,
sampling devices, electronic equipment and other
devices for field operations. EPA came up with a creative
alternative, using a hybrid solar-diesel generator to
recharge equipment and power remediation activities.
The mobile unit integrates solar panels with a diesel
generator, which provides consistent power over
prolonged periods while reducing greenhouse gas
emissions and noise pollution. The solar-powered
generator operated during the summer of 2014, and
EPA plans to use it again for cleanup work in 2015.

Summitville Mine (Rio Grande County, Colorado)
Gold mining at this 1,400-acre site released metals-
laden mine water into the Alamosa River. In 1994, EPA
began cleaning up the area, which included capturing
and treating contaminated water. Water treatment
requires consistent, year-round power sources, while

Mobile solar units provide 24/7 power security, even
during inclement weather, (source: EPA)

2

U.S. Environmental Protection Agency
Abandoned Minelinds Team

-------
seasonal snow accumulation limits solar energy
opportunities. EPA and the Colorado Department of
Public Health and Environment (CDPHE) researched
other renewable energy options and designed a micro-
hydroelectric power plant. The plant, which consists
of a pipe penstock and turbine, began operating in
September 2011. Today, it provides up to 32 kilowatts
(kW) of power to help run the site's water treatment
system.

Recently, CDPHE and EPA reassessed ways to lower
costs and fossil fuel consumption associated with
ongoing water treatment. CDPHE and EPA partnered
with a community solar garden in Antonito, a nearby
town located 40 miles south of the site. Using virtual
net metering, subscribers who invest in the shared solar
array receive energy credits as if the panels are located
on their own property. CDPHE and EPA invested in
a 10-kW subscription (about 40 panels). The power
produced by those 40 panels feeds into the local utility,
which then provides CDPHE and EPA with energy credit
as if the 40 panels were located on the water treatment
plant's roof. The subscription increases overall usage
of clean energy and will offset about 15 metric tons of
greenhouse gases each year.

Planned Projects

ASARCO Mission Mine (Sahaurita, Arizona)

Hie site covers 29 square miles of an open-pit copper mine,
operated by ASARCO, about 18 miles south of Tucson.
Following a request from the Tohono O'odham Nation,
which formerly leased land to ASARCO for mining
activities, EPA prepared a renewable energy assessment
in 2011. The assessment evaluated renewable energy
development opportunities for a tailings area at the site and
concluded that the area could accommodate a utility-scale
solar energy project. While no projects are currently active
at the tailings area, the assessment offers valuable resources
applicable to the larger ASARCO Mission Mine complex.

Building on the 2011 assessment, ASARCO, Tucson
Electric Power and Clenera, LLC moved forward with
plans to redevelop a nearby area of the ASARCO mine
property for a utility-scale solar array. The project, called
the Avalon Solar Facility, broke ground in May 2014. The
facility will deliver 35 MW of clean energy for the local
utility provider. Tucson Electric Power will buy generated
power under a 20-year power purchase agreement.

The site's 35-MW array will provide enough energy
to power about 7,000 homes, (source: Inside Tucson
Business)

Anaconda Co. Smelter (Anaconda, Montana)

Covering more than 300 square miles in Anaconda-Deer
Lodge County, this Superfimd site was the location of
an Anaconda Minerals Company ore processing facility
from 1884 to 1980. For decades, the company removed
copper from ore, which created milling and smelting
wastes. Cleanup is ongoing. Looking forward, county
officials and local partners are pursuing opportunities for
a wind energy project at the site, given wind resources
in the area and the site's location near a power plant
and substations. EPA conducted an assessment of wind
resource by measuring wind speeds with 60-meter towers
at two locations over a four year period. Data confirms
that the site could support a wind farm in the future.

ASARCO (East Helena, Montana)

ASARCO operated a lead and zinc smelter in East Helena
from 1888 to 2001. A recent EPA-NREL assessment found
that, based on available feedstock sources, the site could
support a 10-to-20-MW biopower plant in the future.
Today, the community is engaged in a planning process
that integrates site cleanup plans with redevelopment
goals and is looking at ways to make renewable energy
projects happen. The study is available to inform cleanup
and redevelopment activities in the future.

Chino Mine (Silver City, New Mexico)

This site includes 9,000 acres of open-pit copper

Renewable Energy
Assessments

-------
mines and smelters. Smelting ended in 2003 and
cleanup began. Site stakeholders and the community
are investigating how solar power could help offset
the cleanups increasing energy requirements, which
are partly due to a regional water distribution system
expansion. Building on an earlier study by EPA's AML
Team, an EPA-NREL assessment found that the site,
which is flat and well wired, could support a large-scale
solar photovoltaic (PV) system. Such a system could
generate up to 348 MW of power for the sites cleanup
as well as other local energy needs.

Iron King-Humboldt Smelter (Dewey-Humboldt,
Arizona)

EPA's AML Team completed a renewable energy
assessment for this site, which includes a former lead,
gold, silver, zinc and copper mine and an independent
smelter. The assessment looked at potential opportunities
for renewable energy facilities to provide electricity for
light industrial and commercial uses on site as well as
feeding power back to the grid. It found that solar energy
and bioenergy are the most promising options for the site.

Jeddo Mine Tunnel (Hazelton, Pennsylvania)
An EPA-NREL assessment funded by EPA's RE-
Powering America's Land Initiative looked closely at the
area's capacity to support hydroelectric and geothermal
energy production. The assessment found that the
site could successfully support a hydroelectric system.
The turbine manufacturer and the dam designer did
not identify any major construction or maintenance
concerns. The assessment also clarified how such a
facility could qualify for federal tax incentives, including
grants and low interest loans, strengthening the project's
financial viability.

Peru Mill Industrial Park (Deming, New Mexico)
Mineral extraction and processing at this 1,420-acre site
resulted in contamination requiring cleanup. Looking
to the future, the City of Deming rezoned the site for
industrial uses, including renewable energy facilities. A
recent EPA-NREL assessment found that a large-scale PV
system could generate up to 36.4 MW of power at the site.

Uranium Mills Tailing (Lakeview, Oregon)

Starting in 1957, the Lakeview Mining Company, under
contract with the U.S. Atomic Energy Commission,
operated a uranium processing mill at this 169-acre site.
While mill operations ended after a few years, residual
radioactive contamination required cleanup, which

RE-Powering America's Land

This EPA initiative identifies wind, solar, geothermal and
biomass resources at Brownfields, RCRA, Superfund and
mining sites. It also provides technical information to
communities, utility providers and developers to help them
make informed decisions about renewable energy development
opportunities at sites across the country.

EPA's RE-Powering America's Land Initiative also partnered
with the Department of Energy's National Renewable Energy
Laboratory (NREL) to conduct renewable energy assessments
at several mining sites across the country.

For more information about the initiative or EPA-NREL
assessments, please visit: www.epa.gov/renewableenergvland.

took place from 1986 to 1989. Recently, EPA and NREL
worked with the Lake County Resources Initiative, a
workgroup of local citizens and business owners, on a
renewable energy assessment for potential geothermal
power generation at the site. The assessment concluded
that there is an adequate geothermal resource beneath
the site for non-utility-scale power generation projects.

Vermont Asbestos Group Mine Site (Eden and Lowell,
Vermont)

This 1,500-acre asbestos mine operated from the late
1800s until 1993. After mining operations ended, EPA
conducted removal actions to assist in preventing off-
site asbestos contamination and protect human health.
Seeking opportunities to reuse idle land, EPA and NREL
selected the site for a renewable energy assessment. The
assessment evaluated potential solar power opportunities
and identified 11 acres of the site suitable for large solar
arrays that could generate up to 2.2 MW. Incentives
from the Vermont Sustainably Priced Energy Enterprise
Development (SPEED) program could help enable the
site's reuse for solar power generation in the future.

The Peru Mill Industrial Park site is nearly flat and
well suited for solar development, (source: NREL)

U.S. Environmental Protection Agency
Abandoned Minelinds Team

4

-------