CMM Recovery and Use Opportunities at Western U.S. Mines

CMM Recovery and
rtunities at Western

Use:

U.S. Mines

U.S.EPA

Coalbed Methane

OUTREACH PROGRAM

Benefits of CMM Recovery and Use

Many of the major U.S. coal fields are located in Western states—including Colorado, Montana, New
Mexico, Utah, and Wyoming—and the associated mines comprise some of the country's gassiest coal
reserves. The recoverable, high quality coal mine
methane (CMM) from Western mines is estimated at 3.4
billion cubic feet (Bcf), which equates to 3.4 trillion British
thermal units (Btu) or 300,000 megawatt hours (MWh) of
power generation for project developers. Moreover,
emerging policies and incentives in Western states are
designed to encourage greater CMM recovery/use.

Western Mines CMM Resource Potential

In 2012, Western mines in Colorado, New
Mexico, and Utah represent 46% of vented
mine degasification and 11% of ventilation air
methane (VAM) from U.S. underground mines
(see table below). Western mines also
represent 62% of CMM emissions from U.S.
surface mines—with Wyoming accounting for
56% of the volume.1

Emissions from Underground Western Mines
(MMcf, 2012)

Reduce GHG emissions

Conserve a local source of valuable, clean-

burning energy

Enhance mine safety by reducing in-mine
methane concentrations
Generate revenue for the mine

State/Mine

VAM
Emissions

Degas

Total

Colorado

Bowie No.2

642

736

Elk Creek

3,217

965

4,182

McClane Canyon

West Elk

1,483

1,008

2,491

New Mexico

San Juan South

1,290

443

1,733

Utah

Dugout Canyon

280

Emery

West Ridge

1,877

855

2,732

Source: Inventory of U.S. Greenhouse Gas Emissions and Sinks:
1990-2012 (2014)

Using CMM to Meet State Renewable
Portfolio Standards and Goals

Several coal-producing states have enacted
alternative energy and renewable energy
programs that include coal-related methane as
a targeted renewable or clean energy resource.

• In 2004, Colorado became the first state to
create a renewable portfolio standard
requiring utilities to generate or purchase
enough renewable energy to supply 10-30%
of their electric sales by 2020.2 Legislation
adopted in 2013 expanded the list of eligible
renewable energy sources to include CMM.

• In 2008, Utah established a renewable
portfolio goal requiring eligible renewable
energy sources to account for 20% of
utilities' 2025 adjusted retail electric sales.3
In 2010, the Utah legislature amended its
definition of renewable energy source to
include "methane gas from an abandoned
coal mine or a coal degassing operation
associated with a state-approved mine
permit" as part of waste gas or waste heat
captured or recovered for use as an energy
source for an electric generation facility.4

Large methane capture and utilization projects
in the coal mines of Appalachia provide mining
companies with a significant energy source
and/or additional revenue. CMM projects could
be implemented at Western mines with similar
results.

Colorado and Utah legislatures have
expanded or amended "renewable energy
sources" definitions to include CMM

U.S. Environmental Protection Agency (U.S. EPA), Inventory of U.S. Greenhouse Gas Emissions and Sinks: 1990-2012, Chapter 3 - Energy (April 2014),
http://www.epa.gov/climatechange/Downloads/ghgemissions/US-GHG-lnventory-2014-Chapter-3-Energy.pdf.

Energy Resource and Carbon Emission Reduction Initiative Act, www.dsireusa.org/incentives/incentive.cfm?lncentive_Code=C024R.

3S.B. 202, Title 10 Municipal Code, Chapter 19 Municipal Electric Utility Carbon Emission Reduction Act, UTAH. CODE ANN. § 10-19-101 etseq. (2009).
4 H.B. 192, 2010 Gen. Sess. (Utah 2010), available at http://le.uta h.gov/~2010/htmdoc/hbi 11 htm/H B0192.htm.

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CMM Markets and Project Opportunities
The largest and most prevalent CMM emission
reduction projects in the United States involve
capture and sale of produced gas directly to
natural gas pipelines. This option is particularly
attractive when the mine is located near
existing infrastructure, such as in New Mexico
or Wyoming, and meets the minimum pipeline
quality and quantity requirements. Using CMM
to fuel electrical generation via gas turbines or
internal combustion engines is another
potentially profitable way to generate revenue
by selling energy into the electricity grid. Proven
technologies comprise using CMM in generator
sets and/or boilers. Alternatively, mines can
reduce costs by using heat and power
generated onsite to run equipment.

Other proven uses for CMM include low-level
heat for coal drying or mine ventilation air and
water heating during the winter months,
feedstock fuel for manufacturing and
processing end uses, and vehicular fuel (e.g.,
liquefied or compressed natural gas). Methane
emission reduction credits or offsets associated
with CMM projects may be sold into voluntary
carbon registries (e.g., Verified Carbon
Standard, Climate Action Reserve) and
emerging compliance carbon markets (e.g.,
California Air Resources Board cap-and-trade
offset program). Carbon credit revenues can be
generated for emission reductions from both
active and abandoned coal mines.

Clean Coal

By mitigating both the VAM and drainage
emissions from a gassy underground mine with
a specific emission factor of 700 standard cubic
feet of methane per ton of coal mined,
approximately 10% of the carbon dioxide
generated by burning the coal for power
production would be offset by the methane
reductions; thereby, significantly lowering the
coal's life-cycle carbon foot print.

Western Mine Methane Capture Projects

Solvay Chemicals, Inc. CMM Utilization
The fundamental objective of Solvay's mine methane
drainage project is to improve the safety of its miners'
work environment. This waste gas is then used in a process
kiln with the excess gas being destroyed in an enclosed
combustor.

Solvay's process kiln (compliments of Solvay Chemicals, Inc.)

Elk Creek Power Generation and Methane Destruction
This project drains methane from sealed areas of the
mine—through an underground drainage system—to
reduce emissions into working areas of the mine. Surface
equipment then utilizes the methane for 3-megawatt
electricity (MWe) power generation with excess gas
combusted.

Combustor and first of three 1-MWe power generators being
placed at Elk Creek mine (compliments of Vessels Coal Gas, Inc.)

The U.S. Environmental Protection Agency's Coalbed Methane Outreach Program (CMOP) is a voluntary program with a
goal of reducing methane emissions from coal mining activities. Our mission is to promote the profitable recovery and
utilization of CMM, a potent greenhouse gas (GHG) that contributes to climate change if emitted to the atmosphere.
When collected and used for energy, CMM is a valuable fuel source.

www.epa.gov/cmop

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