水力压裂技术在岩爆危害控制中的应用

IF 1.3 Q3 Earth and Planetary Sciences Mining Science Pub Date : 2015-01-01 DOI:10.5277/MS150202
W. Karkocha
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引用次数: 2

摘要

岩爆危害评价与控制的方法均归为岩爆防治。预防方法可分为被动(非主动)和主动两大类。预防冲击地压的积极方法一般集中在通过爆破工程控制震动和冲击地压来降低其集中区域的应力水平。在积极的方法中,水力压裂是值得注意的。传统水力压裂技术通常会形成主水力裂缝。而将水力压裂与爆破相结合,可能会获得更好的效果。例如,水力裂缝范围比仅使用常规方法更宽。在煤层中可以增加渗透率,使瓦斯抽放更加有效。这是因为爆炸引起的水冲击波和气泡脉动在钻孔周围的岩体中造成了很高的应变率。当使用水力压裂时,会发生微地震事件。这就是为什么微地震技术被用来监测水力压裂过程的范围。这篇文章只是提到了作者认为值得更多关注的问题。
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Hydraulic fracturing technology in rock burst hazard controlling
All methods of rock burst hazard evaluation and control are classified as rock burst prevention. The prevention methods can be divided in two general categories – the passive (non-active) and active ones. Active methods of rock burst prevention focus generally on reducing of stress level in the area of its concentration through controlled tremors and rock bursts by blasting works. Among the active methods the hydraulic fracturing can be noted. Traditional hydraulic fracturing techniques generally form main hydraulic cracks. However, when we combine hydraulic fracturing with blasting we might obtain much better results. For example, the hydraulic crack range becomes wider than by using only conventional methods. In coal seams it is possible to increase permeability which makes gas drainage to be more effective. It is because water shockwaves and bubble pulsations induced by the explosion, cause a high strain rate in the rock mass surrounding the bore hole. When hydraulic fracturing is used, a micro seismic event takes place. This is why micro seismic technologies are used to monitor the range of hydraulic fracturing process. This article is only mentioning the issue which in the Author opinion, deserves more attention.
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来源期刊
Mining Science
Mining Science MINING & MINERAL PROCESSING-
CiteScore
2.40
自引率
0.00%
发文量
0
审稿时长
24 weeks
期刊介绍: Mining Scince. Scientific Papers of the Department Geoengineering, Mining and Geology of the Wroclaw University of Technology. The journal publishes original papers on mining and geology, geo-engineering and the related issues. The journal is devoted to the following topics: fundamental research in mining, underground and open-cast mining technologies, blasting technology, design and construction of mines, geomechanics and geotechnical engineering, mine ventilation, fluid mechanics and its application in mining, mining machinery and condition monitoring, mineral processing, environmental protection and waste utilization. The journal also accepts papers concerns geoengineering which is a sciences covering mining construction, geotechnical engineering, GIS, and earth sciences.
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