Earth:Ventilation air methane thermal oxidizer
Ventilation air methane thermal oxidizers (or VAMTOX) are a type of processing equipment used for greenhouse gas abatement related to underground mining operations that destroys gaseous methane at a high temperature.
Principle
Ventilation Air Methane Thermal Oxidizers are used to destroy methane in the exhaust air of underground coal mine shafts. Methane is a greenhouse gas that burns to form carbon dioxide (CO2) and water vapour. Carbon dioxide is 25 times less potent than methane when emitted into the atmosphere with regards to global warming. Concentrations of methane in ventilation exhaust air of coal and trona mines are very dilute; typically below 1% and often below 0.5%.[1] Flow rates are so high that ventilation air methane constitutes the largest source of methane emissions at most mines. This methane emission wastes energy and contributes significantly to global greenhouse gas (GHG) emissions.
Operation
Thermal oxidation is the most widely accepted air pollution control technologies used in industrial applications. Ventilation Air Methane Thermal Oxidizers are commonly referred to as a VAMTOX. They are very specific and extremely efficient – energy recovery efficiency can reach 95%. This is achieved through the storage of heat in dense ceramic stoneware. Ventilation Air Methane Thermal Oxidizers are used for the very low methane concentrations operate continuously. These systems can destroy 95-98+% methane (CH4) that would otherwise be emitted. Ventilation Air Methane Thermal Oxidizers can be designed with hot gas bypass systems, re-circulation heat exchangers that convert heat into energy, and oxygen monitoring to reduce any possible carbon monoxide and/or nitrous oxide production. Methane streams allow the VAMTOX to operate at reduced or zero fuel usage, which makes these systems ideal for mine shaft ventilation operations.
VAMTOX systems have a system of valves and dampers that direct the methane flow across the ceramic bed. On system start up, the system preheats and raises the temperature of the heat exchange material in the oxidizer bed to or above the auto-oxidation temperature of methane (1,000 °C or 1,832 °F). Then the preheating system is turned off and mine exhaust air is introduced. When the methane-filled air reaches the preheated bed, it oxidizes and releases heat. This heat is transferred to the bed, thereby maintaining its temperature to support continued operation. The oxidation process is flameless. Once the bed is preheated, the process needs no auxiliary energy so long as adequate inflow methane concentrations are maintained. The VAMTOX system exhaust gases can be used to raise steam, which can provide electrical power through a turbine generator.
References
Works cited
- [1]"USEPA, 2003 Assessment of the Worldwide Market Potential for Oxidizing Coal Mine Ventilation Air Methane" July 2003"
- "Mattus, R, 2007. In Full Operation – The World’s First VAM Power Plant, presented at the Methane to Markets Partnership Expo, Beijing, China, October 30 – November 1, 2007"
- "Hamilton et al., 2007. State of the Voluntary Carbon Markets 2007: Picking Up Steam, Hamilton, K, Bayon, R, Turner, G, and Higgins, D, New Carbon Finance and The Ecosystem Marketplace, July 2007"
- "12th U.S./North American Mine Ventilation Symposium 2008 – Wallace (ed) ISBN:978-0-615-20009-5"
- "Watson R.T. et al., "IPCC Third Assessment Report – Climate Change 2001", Intergovernmental Panel on Climate Change, Geneva, Switzerland, 2001"
External links
- "Ventilation Air Methane Thermal Oxidizer System" American Environmental Fabrication & Supply, Sept. 2010
- "Assessment of the Worldwide Market Potential for Oxidizing Coal Mine Ventilation Air Methane" U.S EPA, Sept. 2009
- " Thermal oxidation of coal mine ventilation methane" 2008 Mine Ventilation Symposium, Jul. 2008
- "Capture and use of coal mine ventilation-air methane" U.S. Department of Energy National Energy Technology Laboratory, April 2008
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