Frequent Questions
This page provides various links to non-EPA Web sites that provide additional information about the Coalbed Methane Outreach Program (CMOP). Read more about EPA's exit disclaimer .
- Why is EPA concerned about coal mine methane?
- What is the difference between coalbed methane and coal mine methane?
- How does CMOP work to reduce methane emissions?
- What is CMOP's role in promoting international coal mine methane projects?
- How is methane emitted from coal mines?
- How much methane is emitted from coal mines?
- What are the uses for coal mine methane?
- How much methane is captured and recovered from coal mines? Where are the projects?
- Where are the best opportunities for developing coal mine methane projects in the U.S.?
- What is ventilation air methane and how can it be used?
- What is abandoned mine methane?
- How do I find out about international activities in coal mine methane project development?
- How do I keep in touch with CMOP and learn about new developments?
- What is global climate change and why should we be concerned about it?
1. Why is EPA concerned about coal mine methane?
Methane is the second most important greenhouse gas after carbon dioxide. In fact, methane is over 20 times more potent than carbon dioxide (CO2) on a mass basis over a 100 year time period.
Coal mine methane (CMM) represents wasted emissions to the atmosphere, while capture and use of CMM has benefits for the local and global environment.
More information about methane >>
2. What is the difference between coalbed methane and coal mine methane?
Coalbed methane refers to methane that is found in coal seams. It is formed during the process of coalification, the transformation of plant material into coal. Coalbed methane is also known as "CBM," or virgin coal seam methane or coal seam gas. It is widely considered an "unconventional" source of natural gas. In the U.S., coalbed methane is a valuable resource that accounts for about 10% of total U.S. natural gas production annually.
More information on CBM production in the U.S. >>
Coal mine methane (CMM) refers to methane released from the coal and surrounding rock strata due to mining activities. In underground mines, it can create an explosive hazard to coal miners, so it is removed through ventilation systems. In abandoned mines and surface mines, methane might also escape to the atmosphere through natural fissures or other diffuse sources. Like CBM, coal mine methane is a subset of the methane found in coal seams, but it refers specifically to the methane found within mining areas (e.g., within a mining plan), while CBM refers to methane in coal seams that will never be mined. Because CMM would be released through mining activities, recovering and using CMM is considered emissions avoidance.
3. How does CMOP work to reduce methane emissions?
CMOP is engaged in numerous domestic and international outreach efforts.
In the U.S., CMOP works cooperatively with the coal mining industry to support project development, overcome institutional, technical, regulatory, and financial barriers to implementation, and communicate the benefits of CMM recovery.
Specific activities include:
- Identifying, evaluating, and promoting methane reduction options, including technological innovations and markets mechanisms to encourage project implementation
- Conducting workshops to educate the mining industry and the broader community on the environmental, mine safety, and economic benefits of methane recovery
- Preparing and disseminating reports and other materials that address topics ranging from technical and economic analyses to overviews of legal issues
- Interfacing with all facets of the mining industry to advance project development
- Conducting feasibility and prefeasibility studies for U.S. mines that examine a range of end-use options
- Providing global access to information regarding latest developments through our Web sites, email updates, and quarterly newsletters
Sign up for our updates and newsletters >>
4. What is CMOP's role in promoting international coal mine methane projects?
CMOP continues to develop partnerships, fund grants, and engage in international outreach to promote CMM recovery and reduce CMM emissions globally in support of the Methane to Markets Partnership. We have established information clearinghouses in several countries, including China, the Russian Federation, Ukraine, and India.
5. How is methane emitted from coal mines?
There are three primary sources of CMM:
- Degasification systems at active underground mines. Also commonly referred to as drainage systems, these systems employ vertical and/or horizontal wells to recover methane before mining takes place to help the ventilation system keep the in-mine methane concentrations sufficiently low (well below the explosive limit) to protect miners.
- Ventilation air methane (VAM). This refers to the very dilute methane that is released from underground mine ventilation shafts. Although it is typically less than 1 percent methane, it is the single largest source of CMM emissions globally.
- Abandoned mine methane. Closed mines produce emissions of low- to medium-quality gas from diffuse vents, ventilation pipes, boreholes, or fissures in the ground.
Other, more minor sources of methane from coal mines include surface mines and post-mining activities (coal continues to emit methane as it is stored in piles and transported).
6. How much methane is emitted from coal mines?
Globally, coal mines emit over 400 million metric tons of carbon dioxide equivalent annually (over 28 billion cubic meters annually), or about 8% of total anthropogenic methane emissions.
In 2005, U.S. coal mines emitted about 144 billion cubic feet of methane. Between 1994 and 2005, U.S. emissions decreased by over 20%, in large part due to the coal mining industry's increased recovery and utilization of drained gas.
China leads the world in coal mine methane emissions with nearly 200 million metric tons CO2E in 2004 (about 14 billion cubic meters annually). Other leading emitters are the U.S., Ukraine, Australia, the Russian Federation, and India.
2004 Global Coal Mine Methane Emissions
More information about CMM >>
More information about U.S. CMM emissions >>
More information about international CMM emissions >>
7. What are the uses for coal mine methane?
Technology is readily available to recover methane (CH4) – the major component of natural gas – from coal mines. Specific coal mine methane (CMM) end-uses depend on the gas quality, especially the concentration of methane and the presence of other contaminants.
Worldwide, CMM is most often used for power generation, district heating, boiler fuel, or town gas, or it is sold to natural gas pipeline systems.
CMM can also be used in many other ways:
- Coal drying
- Heat source for mine ventilation air
- Supplemental fuel for mine boilers
- Vehicle fuel as compressed or liquefied natural gas (LNG)
- Manufacturing feedstock
- Fuel source for fuel cells
8. How much methane is captured and recovered from coal mines? Where are the projects?
In 2005, U.S. coal mines recovered and utilized over 37 billion cubic feet of coal mine methane. Nearly all of this gas was sold to natural gas pipelines. Between 1994 and 2005, U.S. coal mines have reduced total U.S. coal mine methane emissions by over 20% largely due to their increased recovery and use of drained gas.
More about coal mine methane recovery projects in the U.S. (PDF) >> (202 pp, 1.2MB, About PDF)
Globally, as of 2006, there are over 200 recovery and utilization projects in about 12 countries at active or abandoned coal mines. Collectively these projects mitigate over 3.8 billion cubic meters of methane each year (over 54 million metric tons of carbon dioxide equivalent).
More
about global coal mine methane capture and recovery >>
More about international coal mine projects >>
9. Where are the best opportunities for developing coal mine methane projects in the U.S.?
CMOP has identified about 50 active underground coal mines in the U.S. that have significant gas levels that may make them promising candidates for project development. As of 2007, about 20 of these mines have degasification (drainage) systems in place.
More information about candidate coal mines (PDF) >> (202 pp, 1.2MB, About PDF).
10. What is ventilation air methane and how can it be used?
Methane is an explosive gas that is a hazard to underground miners. To ensure mine safety, fresh air is circulated through underground coal mines using ventilation systems to dilute in-mine concentrations of methane to levels well below explosive levels. These concentrations are regulated by mine safety authorities in each country. Typically, methane concentrations in ventilation air range from 0.1 percent to 1.0 percent.
Ventilation air methane (also known as VAM) refers to the very dilute methane that is released from underground mine ventilation shafts. VAM represents over half of all coal mining emissions in the United States and worldwide. With few exceptions, it is simply released to the atmosphere.
It is technically possible to convert the dilute methane in ventilation air to useful energy. The economic feasibility of these projects on a commercial scale is being demonstrated (PDF) (132 pp, 1.5 MB, About PDF).
The high volumetric flowrate and low concentrations of ventilation air methane make it challenging to capture and utilize cost-effectively. Technologies to capture and harness the energy resource of VAM are currently being developed, demonstrated, and commercialized.
- First technology demonstration project in the U.S. EPA's Coalbed Methane Outreach Program (CMOP) has joined with the U.S. Department of Energy (DOE) and industry partners in an effort to reduce greenhouse gas emissions and generate a new source of clean energy from coal mines. This project supports the first U.S. demonstration of a technology designed to capture and use methane gas emitted by coal mine ventilation shafts.
April 2007 press release >> - First commercial scale demonstration at an active coal mine. Commissioned in 2007 at the West Cliff Colliery in Australia (known as the WestVAMP project) to generate 6 MW of electricity using the MEGTEC VOCSIDIZER thermal flow reverse reactor technology (thermal oxidizer).
More information >> - Successful demonstration of VAM oxidation and heat recovery. Operated from 2001- 2002 at Appin Colliery in Australia, also utilizing MEGTEC's VOCSIDIZER.
11. What is abandoned mine methane?
When coal mines are no longer operated to produce coal, they are known as closed (or "abandoned") mines. Even though active mining no longer occurs, these closed mines can still produce significant methane emissions from diffuse vents, fissures, or boreholes. This methane can be deliberately extracted and used to generate power or for other end uses.
There are several thousand abandoned coal mines in the U.S. Of these, EPA has identified some 400 abandoned mines that are considered "gassy" and has developed profiles of successful projects at abandoned mines and mines that may be good candidates for project development.
Methane Emissions from Abandoned Coal Mines in the U.S.: Emission Inventory Methodology and 1990-2002 Emissions Estimates (PDF) >> (90 pp, 678K, About PDF)
EPA developed a methodology to estimate fugitive methane emissions from abandoned mines. This methodology is now incorporated in the 2006 IPCC Guidelines for National Greenhouse Gas Inventories.
12. How do I find out about international activities in coal mine methane project development?
CMOP is actively engaged in implementing the international Methane to Markets Partnership, a voluntary initiative to reduce methane emissions from four key sectors: agriculture, coal mining, landfills, and oil & gas systems. The Partnership focuses on near-term methane recovery for use as a clean, profitable energy source.
More information about the M2M Coal Subcommittee activities >>
More information about CMOP's international activities >>
13. How do I keep in touch with CMOP and learn about new developments?
Join the CMOP Network! As a Network member, you'll receive our quarterly newsletter and weekly email updates. If you choose, you can also be listed as a contact on our network contact list.
14. What is global climate change and why should we be concerned about it?
For more information, please visit EPA's Climate Change Web site