Integrated Rock-Breaking Methods in Well Drilling
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摘要: 为了提高钻井效率,对油气钻井组合式破岩技术进行了深入研究,摩擦热-机械破岩、微波-机械破岩、激光-气体机械破岩等新型组合破岩技术较常规机械破岩方法能明显提高破岩效率,但也有各种技术瓶颈需要突破,距工业化应用还存在一定距离,机械破岩仍是高效破岩的主体.在研究岩石热物理特性、空气钻井装备工具、高温材料等的基础上,提出燃烧热能-机械能综合破岩方法是最有发展前景的新型破岩方法.采用燃烧热能-机械能综合破岩,双壁钻杆及双通道水龙头提供燃料通道,耐热材料用于研制高温钻头,高温造壁器将破岩形成的井眼井壁玻璃化,可实现深井和超深井钻井,并保护储层.Abstract: This paper introduces integrated rock-breaking methods,such as frictional heat-mechanical,microwave-mechanical,and laser-gas rock-breaking,which are more efficient compared to conventional rock breaking methods.Due to technical bottlenecks of each method,they are not ready for industrial application,so mechanical rock-breaking is still the principle method at present.Based on the research on the present development of thermal properties of rock,air drilling equipment and heat-resistant materials,the author considered thermal-mechanical rock-breaking method would be the most promising approach.In this method,fuel could be provided through dual-wall drill pipe and swivel,and high-temperature bit could be produced from heat-resistant material.High temperature can vitrify the borehole wall in deep and super deep well drilling,and protect reservoirs.
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Keywords:
- rock-breaking method /
- mechanical rock-breaking /
- thermal energy /
- rock strength /
- heating power
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[1] 王德余,李根生,史怀忠,等.高效破岩新方法进展与应用[J].石油机械,2012,40(6):1-6. Wang Deyu,Li Gensheng,Shi Huaizhong,et al.Progress of the high-efficiency rock-breaking method[J].China Petroleum Machinery,2012,40(6):1-6. [2] 张海平,索忠伟,陶兴华.液动射流式冲击器结构设计及试验研究[J].石油机械,2011,39(7):1-4. Zhang Haiping,Suo Zhongwei,Tao Xinghua.The structural design and experimental study of the jet-type hydro-hammer[J].China Petroleum Machinery,2011,39(7):1-4. [3] 辛建华.水力脉冲空化射流技术在非常规钻井中的应用[J].油气藏评价与开发,2012,2(3):70-78. Xin Jianhua.Application of hydraulic pulse cavitating jet technology in unconventional well drilling[J].Reservoir Evaluation and Development,2012,2(3):70-78. [4] 付加胜,李根生,史怀忠,等.水力脉冲空化射流钻井技术适应性分析[J].石油钻采工艺,2012,34(5):10-14. Fu Jiasheng,Li Gensheng,Shi Huaizhong,et al.Analysis on adaptability of hydraulic pulse cavitating jet drilling technology[J].Oil Drilling Production Technology,2012,34(5):10-14. [5] 秦晓庆,刘伟,李丽,等.旋冲钻井技术在川西硬地层的应用[J].断块油气田,2013,20(4):505-507. Qin Xiaoqing,Liu Wei,Li Li,et al.Application of rotary percussion drilling technology in hard formation of western Sichuan[J].Fault-Block Oil and Gas Field,2013,20(4):505-507. [6] 李玮,闫铁,张杨,等.一种共振钻井装置:中国,CN202249765U[P].2012-05-30. Li Wei,Yan Tie,Zhang Yang,et al.A resonant equipment for drilling:China,CN202249765U[P].2012-05-30. [7] 伍开松,古剑飞,况雨春.粒子冲击钻井技术述评[J].西南石油大学学报:自然科学版,2008,30(2):142-149. Wu Kaisong,Gu Jianfei,Kuang Yuchun.Comment on particle impact drilling technology[J].Journal of Southwest Petroleum University:Science Technology Edition,2008,30(2):142-149. [8] 杨宝刚,陈大祺,张伟,等.涡流式水力降低压差机制及现状[J].科技导报,2012,30(23):67-73. Yang Baogang,Chen Daqi,Zhang Wei,et al.Depressurization mechanism of the vortex methods and its current development status[J].Science Technology Review,2012,30(23):67-73. [9] 孙伟良.钻头分流降低井底压力机理的研究[D].北京:中国石油大学(北京)石油工程学院,2012. Sun Weiliang.Mechanism study on the bottomhole pressure reduction by drilling fluid shunt on bit[B].Beijing:China University of Petroleum(Beijing),College of Petroleum Enginee-ring,2012. [10] 袁光宇.射流泵降低井底压差工具研究现状及性能分析[J].石油钻探技术,2012,40(4):76-80. Yuan Guangyu.Current status of research and performance analysis of depressure tools for jet pump[J].Petroleum Drilling Techniques,2012,40(4):76-80. [11] 赵建康,张祖培,孙友宏,等.摩擦热-机械碎岩技术的研究应用现状及新进展[J].探矿工程:岩土钻掘工程,2001,28(增刊1):166-168. Zhao Jiankang,Zhang Zupei,Sun Youhong,et al.Research and progress of frictional heat-mechanical energy rock fragmentation technology[J].Exploration Engineering:Rock Soil Drilling and Tunneling,2001,28(supplement 1):166-168. [12] 吴景华.摩擦热-机械能联合碎岩理论与工艺的研究与实践.长春:吉林大学建设工程学院,2005. Wu Jinghua.Research and application of friction heat-mechanical energy rock fragmentation theory and technology.Changchun:Jilin University,College of Construction Engineering,2005. [13] Hassani F,Nekoovaght P M,Radziszewski K E,et al.Microwave assisted mechanical rock breaking[R].ISRM 3791,2012.
[14] 李文成,杜雪鹏.微波辅助破岩新技术在非煤矿的应用[J].铜业工程,2010,27(4):1-4. Li Wencheng,Du Xuepeng.Application of mircrowave-assisted rock breaking in metalmines[J].Copper Engineering,2010,27(4):1-4. [15] Ferri H,Peter R,Jacques O.Microwave assisted drilling and its influence on rock breaking a view[R].ISRM 0071,2008.
[16] 徐依吉,周长李,钱红彬,等.激光破岩方法研究及在石油钻井中的应用展望[J].石油钻探技术,2010,38(4):129-134. Xu Yiji,Zhou Changli,Qian Hongbin,et al.The study of laser rock breaking method and its application in well drilling [J].Petroleum Drilling Techniques,2010,38(4):129-134. [17] Bazargan M,Madani A,Sharifi H,et al.Utilization of laser in petroleum drilling industry[R].IPTC 17019,2013.
[18] Pooniwala S.Lasers:the next bit[R].SPE 104223,2006.
[19] 殷为宏,汤慧萍.难熔金属材料与工程应用[M].北京:冶金工业出版社,2012:12-20. Yin Weihong,Tang Huiping.Refractory metal and application[M].Beijing:Metallurgical Industry Press,2012:12-20. [20] 汪晓峰,张祖培,陈晨.热熔钻进新技术[J].岩土工程技术,2002,17(2):123-125. Wang Xiaofeng,Zhang Zupei,Chen Chen.A new drilling technique-subterrene drills[J].Geotechnical Engineering Technique,2002,17(2):123-125. -
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