Trolex - New Monitoring System Allows Efficient Methane Drainage For Power Generation
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After much research and development, gas sensing specialists Trolex has launched a new methane recovery monitoring system which is set to revolutionise the efficient collection of methane for gas to energy projects, carbon trading projects and safety monitoring.
This extremely accurate new system for methane recovery monitoring is a huge step forward in addressing methane recovery, either as a stand-alone gas-to-energy project, or as part of the Clean Development Mechanism (CDM) and the Joint Initiative (JI) flexible mechanisms agreed under the Kyoto Protocol. It is a fully integrated system with the advantages of maximising safety, meeting legal and regulatory requirements as well as generating new revenue streams, all in parallel. |
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The Trolex Sentinel method of methane monitoring is now able to assist with methane capture for use in natural gas pipeline injection, electric power generation, co-firing in boilers, district heating, mine heating, coal drying, vehicle fuel, and manufacturing uses such as feedstock for carbon black, methanol, and dimethyl ether production. For the very low concentration methane in mine ventilation air, technological development has progressed to the point that this methane source can be oxidised and the resulting thermal energy used to produce heat, electricity, and refrigeration.
In most cases the Sentinel systems will be bespoke precision-engineered to meet the needs of an individual project in order to maximise performance. Long-term system integrity is also ensured by dedicated support for initial installation and ongoing service.
As part of the development programme, the Sentinel system technology has been installed in two coal mines in the UK and one in China and is being effectively used in a gold mine in South Africa. Most schemes are either approved or registered with the UNFCCC Clean Development Mechanism (CDM) for gas to energy generation, and the system has been proven in dynamic testing conditions by independent authorities.
The Trolex Sentinel system overcomes the limitations of current methane monitoring systems which use either thermal conductivity or infra-red detectors. Thermal conductivity detectors measure the thermal conductivity of the whole gas sample, giving a collective reading for all the constituents of the gas, not just methane, and are therefore unreliable. Infra-red detection specifically looks for carbon-hydrogen bonds in hydrocarbon which provides an ideal means of measuring the methane content. Unfortunately any other hydrocarbon components within the sample will also contribute to the response in an infra-red detector.
Gas chromatography is also used to analyse coal mine methane sample gas streams, periodically measuring individual amounts of each component gas. Because samples have to be collected from the gas stream and sent to a laboratory for analysis, and the results then have to be sent back to site, this clearly takes too much time and is far from a continuous measurement process.
Further information on the new Sentinel methane monitoring technology is available from Trolex Ltd, Newby Road, Hazel Grove, Stockport, Cheshire SK7 5DY, telephone 0161-483-1435, email: info@trolex.com or by visiting the company’s dedicated website www.methanemonitoring.net
For further editorial information contact Glyn Pierce-Jones of Trolex on 0161 483 1435, email: glyn.jones@ trolex.com or Nick Brooks of Vantage PR on 01600 715251, email: pr@vantage.uk.com, fax 01600-715254.
For colour separation requests please email Brenda Christopher at brenda@vantage.uk.com or fax 01600 715254.
Issued on behalf of Trolex Ltd, Newby Road, Hazel Grove, Stockport, Cheshire SK7 5DY, www.trolex.com by Vantage Public Relations, 14 White Swan Court, Monmouth, Monmouthshire, NP25 3NY, web: www.vantage.uk.com
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One of the new Sentinel methane extraction monitoring systems from Trolex on a gas to energy installation.
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The new Sentinel methane monitoring system from Trolex.
