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Developments in coal mine methane drainage and utilisation in Australia

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conference contribution
posted on 2024-11-16, 12:43 authored by Dennis BlackDennis Black, Naj Aziz
In recent years there has been significant development in the field of coalbed and coal mine methane drainage and utilisation in Australia. This development has, in part, been necessitated by the rapid increase in mine production capacity and the need to maintain the safety of the mine and its employees through effective management of coal seam gas emission and outburst risk. The increased awareness of the contribution of coal mine gas emission, estimated to account for 4-5% of Australia's 559 million tonnes of CO2 equivalent (MtCO2-e) annual greenhouse gas (GHG) emissions, is placing additional pressure on operators to increase coal seam gas capture and emissions reduction measures. This paper discusses the various sources of gas emission from an operating underground coal mine, with particular focus on longwall mining which accounts for the majority of Australian underground coal production. A variety of gas drainage techniques, both from surface and from within operating underground mines, are described along with a range of commonly encountered problems that exist within coal mine gas drainage systems that prevent optimum drainage performance being achieved. Two variations of a new surface-based gas drainage system for the removal of goaf gas to improve longwall mine productivity and safety are described. This proposed new technique aims to cost effectively increase the total gas volume extracted from the goaf whilst maintaining a relatively consistent gas production rate throughout the operating life of the well. Various methods of coal mine methane gas utilisation are examined, including the capture and utilisation of low concentration methane present in mine ventilation air.

History

Citation

Black, D. J. & Aziz, N. I. (2009). Developments in coal mine methane drainage and utilisation in Australia. Proceedings of the Ninth International Mine Ventilation Congress (pp. 1-12).

Parent title

International Mine Ventilation Congress

Pagination

1-12

Language

English

RIS ID

95019

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