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Spatial context in the calculation of gas emissions for underground coal mines 被引量:4

Spatial context in the calculation of gas emissions for underground coal mines
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摘要 The prediction of gas emissions arising from underground coal mining has been the subject of extensive research for several decades, however calculation techniques remain empirically based and are hence limited to the origin of calculation in both application and resolution. Quantification and management of risk associated with sudden gas release during mining(outbursts) and accumulation of noxious or combustible gases within the mining environment is reliant on such predictions, and unexplained variation correctly requires conservative management practices in response to risk. Over 2500 gas core samples from two southern Sydney basin mines producing metallurgical coal from the Bulli seam have been analysed in various geospatial context including relationships to hydrological features and geological structures. The results suggest variability and limitations associated with the present traditional approaches to gas emission prediction and design of gas management practices may be addressed using predictions derived from improved spatial datasets, and analysis techniques incorporating fundamental physical and energy related principles. The prediction of gas emissions arising from underground coal mining has been the subject of extensive research for several decades, however calculation techniques remain empirically based and are hence limited to the origin of calculation in both application and resolution. Quantification and management of risk associated with sudden gas release during mining(outbursts) and accumulation of noxious or combustible gases within the mining environment is reliant on such predictions, and unexplained variation correctly requires conservative management practices in response to risk. Over 2500 gas core samples from two southern Sydney basin mines producing metallurgical coal from the Bulli seam have been analysed in various geospatial context including relationships to hydrological features and geological structures. The results suggest variability and limitations associated with the present traditional approaches to gas emission prediction and design of gas management practices may be addressed using predictions derived from improved spatial datasets, and analysis techniques incorporating fundamental physical and energy related principles.
机构地区 School of Civil
出处 《International Journal of Mining Science and Technology》 SCIE EI CSCD 2017年第5期787-794,共8页 矿业科学技术学报(英文版)
基金 support of the Australian Government Research Training Program Scholarship gratefully acknowledge the direct financial support of Me Cee Solutions Pty Ltd
关键词 GAS emission prediction Spatial analysis UNDERGROUND COAL MINING Risk management GREENHOUSE GAS CLIMATE Gas emission prediction Spatial analysis Underground coal mining Risk management Greenhouse gas Climate
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