A New Coal Mine Methane Utilization Device

WANG Si-wen; ZHANG Bao-sheng; WANG Jin-feng; WANG Ying

Safety in Coal Mines > 2012 > 43(7): 85-86.

WANG Si-wen, ZHANG Bao-sheng, WANG Jin-feng, WANG Ying. A New Coal Mine Methane Utilization Device[J]. Safety in Coal Mines, 2012, 43(7): 85-86.

Citation:

WANG Si-wen, ZHANG Bao-sheng, WANG Jin-feng, WANG Ying. A New Coal Mine Methane Utilization Device[J]. Safety in Coal Mines, 2012, 43(7): 85-86.

Citation:

WANG Si-wen, ZHANG Bao-sheng, WANG Jin-feng, WANG Ying. A New Coal Mine Methane Utilization Device[J]. Safety in Coal Mines, 2012, 43(7): 85-86.

A New Coal Mine Methane Utilization Device

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Published Date: July 09, 2012

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Abstract

Coalbed methane thermal storage type Stirling engine system based on porous medium burner is power utilization method which adapts to characteristics of low coal mine methane concentration and big flectuation in China.Through organically combining good adaptability of porous medium burner to low-concentration gas source with the external combustion characteristics of the Stirling engine,the device builds Stirling engine system drived by the porous medium burner,and the connection between the two devices is achieved by heat accumulator,which further alleviates the impact of coalbed methane gas source fluctuations on the system.
- thermal storage type,
- low concentration coalbed methane,
- stirling engine,
- porous medium burner

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[1]	高炯.煤矿瓦斯发电技术[J].中国煤层气,2006,3(1):44-46.
[2]	李德波,樊建人,宋正昶,等.甲烷气体在泡沫陶瓷中预混燃烧的数值模拟和实验研究[J].工程热物理学报,2009,30(12):2047-2050.
[3]	金东寒.斯特林发动机技术[M].哈尔滨:哈尔滨工程大学出版社,2009:1-10.
[4]	胡军,董华,周恩泽,等.螺旋盘管式相变储热单元性能[J].太阳能学报,2006,20(4):399-403.

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