页岩气钻井技术新进展

doi:10.3969/j.issn.1002-302x.2017.01.09

摘要/Abstract

摘要： 当前页岩气开发技术日益先进和成熟，水平井技术和大规模储层改造成为非常规油气开发的关键。追踪研究国外近年在页岩气水平井开发中应用的典型新技术，如在钻井工具方面，有旋转导向闭环系统、电磁无线随钻测量装置、新型裸眼侧钻斜向器、随钻成像工具等先进工具出现；在钻头和钻井液方面，贝克休斯等国外石油公司针对页岩特性，研制推出了ONYX Ⅱ Spear 和Talon 3D 矢量等系列的PDC 钻头，创新优化了多种新型高性能水基钻井液；并不断探索“井工厂”作业模式升级换代。文章结合国内目前技术现状，指出中国页岩气钻井技术应尽快完成核心技术和工具的国产化，继续加大低成本替代技术研究力度，开展储层地质与工程一体化，以实现页岩气经济有效开发。

关键词: 非常规油气, 钻井, PDC 钻头, 钻井液, 井工厂, 作业模式, 新技术

Abstract: With shale gas development technology becoming increasingly advanced and mature at the present time, horizontal well technology and large-scale reservoir reconstruction hold the key to non-conventional oil and gas development. This paper follows up and studies the typical new technology applied in horizontal well development of shale gas in foreign countries in recent years. For example, some new and advanced drilling tools appeared, such as rotary steering close-loop system, electromagnetic wireless MWD device, new-type open-hole whipstock sidetracking, and imaging tool while drilling. In the areas of drilling bit and drilling fluid, foreign oil companies like Baker Hughes developed and manufactured PDC drilling bits of the ONYX II Spear and Talon 3D vector families to highlight the shale characteristics while creating and optimizing many new-type high-functional water-base drilling fluids. They have continually studied modernization of the “well factory” service model. Based on the current domestic technological conditions, the article proposes that China’s shale gas drilling technology should be localized as soon as possible, especially for key technology and tools. More efforts should be focused on the study of cost-effective substitute technology, bringing about reservoir geological and engineering integration for high economic performance in shale gas development.

中图分类号:

李东杰　王　炎　魏玉皓　张　彬　于建涛　张　波　廖沫然. 页岩气钻井技术新进展[J]. 石油科技论坛, 2017, 36(1): 49-56.

Li Dongjie, Wang Yan, Wei Yuhao, Zhang Bin, Yu Jiantao, Zhang Bo, Liao Moran. Latest Shale Gas Drilling Technological Development[J]. Petroleum Science and Technology Forum, 2017, 36(1): 49-56.

参考文献

[1] 严向阳, 李楠, 王腾飞, 等．美国非常规油开发关键技术[J]. 科技导报,2015,33(9):100-101． Yan Xiangyang, Li Nan, Wang Tengfei, et al.Key technologies for tight oil development in the United States[J].Science and Technology Review,2015,33(9):100-101.
[2] 石林. 中石油钻井工程技术现状、挑战及发展趋势[J]. 天然气工业,2013,33(10):1-10. Shi Lin. Current situation, challenges and developing trend of CNPC's oil & gas drilling[J]. Natural Gas Industry, 2013, 33(10): 1-10.
[3] 唐代绪, 赵金海, 王华, 等. 美国Barnett 页岩气开发中应用的钻井工程技术分析与启示[J]. 中外能源,2011, 16(4):50-51． Tang Daixu, Zhao Jinhai, Wang Hua, et al. Technology analysis and enlightenment of drilling engineering applied in the development of Barnett shale gas in America[J]. Sino-Global Energy, 2011,16(4):50-51．
[4] 张茂林. 万云祥, 谢飞龙, 等．吉木萨尔非常规油钻井提速技术与实践[J]. 石油钻采工艺,2014,36(5):18-21. Zhang Maolin, Wan Yunxiang, Xie Feilong, et al.Technology and practice of increasing drilling rate for tight oil in Jimusar[J].Oil Drilling and Production Technology,2014, 36(5):18-21.
[5] 张玉胜, 刘庆, 朱礼平, 等.JY1HF 页岩气水平井钻井技术[J]. 天然气技术与经济,2016,10(5):40-43. Zhang Yusheng, Liu Qing, Zhu Liping, et al. Shale-gas horizontal-well drilling technology for JY1HF well[J]. Natural Gas Technology and Economy,2016,10(5):40-43.
[6] 许坤, 李丰, 姚超, 等. 我国页岩气开发示范区进展与启示[J]. 石油科技论坛,2016,35(1): 44-49. Xu Kun, Li Feng, Yao Chao, et al. Progress in China's demonstration zones of shale gas development[J]. Oil Forum, 2016, 35(1): 44-49.
[7] 白玉湖, 陈桂华, 徐兵祥, 等. 页岩气产量递减典型曲线模型及对比研究[J]. 中国石油勘探,2016,21(5): 96-102. BaiYuhu, Chen Guihua, Xu Bingxiang, et al. Comparison of typical curve models for shale gas production decline prediction. China Petroleum Exploration, 2016, 21(5): 96-102.
[8] 郭先敏, 侯芳. 国外钻井装备与技术新进展[J]. 石油机械,2016,44(7):20-26. Guo Xianmin, Hou Fang. Foreign drilling equipment and technology progress[J].China Petroleum Machinery,2016, 44(7):20-26.
[9] 陈志学, 冯晓炜, 崔龙连, 等. 致密砂岩气藏钻完井关键技术研究进展[J]. 科技导报,2013,31(32):74-79. Chen Zhixue,Feng Xiaowei,Cui Longlian,et al. Advances in the key technologies of drilling and completion fortight sand-stone gas reservoirs[J]. Science and Technology Review, 2013, 31(32): 74-79.
[10] 明瑞卿, 张时中, 王海涛, 等. 国内外水力振荡器的研究现状及展望[J]. 石油钻探技术,2015,43(5):116-122. Ming Ruiqing, Zhang Shizhong, Wang Haitao, et al. Research status and prospect o f hydraulic oscillato worldwide[J].Petroleum Drilling Techniques,2015, 43(5):116-122.
[11] 廖少波. 电磁随钻测量技术的发展探讨[J]. 石化技术, 2016,37(2):60-61. Liao Sh aobo. Discu ssion on th e dev elopment of electromagnetic measurement-measurement while drilling technology[J].Petrochemical Industry Technology, 2016,37(2):60-61.
[12] 杨涛, 易铭.Blackstar EM-MWD 在煤层气水平井中的应用[J]. 中国煤炭地质,2010,(8):137-138． Yang Tao, Yi Ming. Application of Blackstar EM-MWD system in CBM horizontal wells[J]. Coal Geology of China,2010,(8):137-138.
[13] 曾义金. 页岩气开发的地质与工程一体化技术[J]. 石油钻探技术,2014,42(1):1-6. ZengYijin. Integration technology of geology and engineering for shale gas development[J].Petroleum Drilling Techniques,2014,42(1):1-6.
[14] 王丽忱, 甄鉴, 陈冬炜. 近年测井技术新进展及测井行业发展趋势[J]. 国际石油经济,2015,23(9):51-55. Wang Lichen, Zhen Jian, Chen Dongwei. Technological progress driven growth in the well-logging industry[J]. International Petroleum Economics, 2015,23(9):51-55.
[15] 郑家伟, 国外金刚石钻头的新进展[J]. 石油机械,2016, 44(8):31-36. Zheng Jiawei. New Development in foreign diamond drill bit[J].China Petroleum Machinery,2016,44(8):31-36.
[16] Fleming C. Economics challenge drill bit manufacturers to reduce drilling costs [J]. World Oil, 2015,(12) : 55-59.
[17] Joanne Liou. New bits look beyond design at overall wellbore/Advanced cutters, manufacturing methods, data analysis help extend bit life, performance[J].Drilling contractor,IADC,2012,(7-8)．
[18] 全球七大最具创新钻头牛在哪里[EB/OL].[2016-01 -08].http://blog.Sina.com.cn/s/ blog_151503f9e0102w8hb. html． What are advantages of global top seven creative drilling bits [EB/OL].[2016-01-08]. http://blog.Sina.com.cn/s/blog_ 151503f9e0102w8hb.html．
[19] 左汝强. 国际油气井钻头进展概述( 四)——PDC 钻头发展进程及当今态势( 下) [J]. 探矿工程( 岩土钻掘工程),2016,43(4):40-48. Zuo Ruqiang. International advancement of drilling bits for oil and gas well (4) —PDC Bits pro gress and present trend[J]. Exploration Engineering (Rock ＆ Soil Drilling and Tunneling), 2016,43(4):40-48.
[20] 龙大清, 樊相生, 王昆, 等. 应用于中国页岩气水平井的高性能水基钻井液[J]. 钻井液与完井液,2016,33(1): 17-21. Long Daqing, Fan Xiangsheng, Wang Kun, et al. High performance water base drilling fluid for shale gas drilling[J]. Drilling Fluid and Completion Fluid, 2016, 33(1): 17-21.
[21] 陈新龙, 徐军, 高迅, 等. 涪陵页岩气开发“井工厂” 钻机现状及发展[J]. 石油机械,2015,43(9):32-36. Chen Xinlong, Xu Jun, Gao Xun, et al. status and prospect of multi-well pad drilling rig for shale gas development in fuling [J].China Petroleum Machinery,2015,43(9):32-36.
[22] 王淑玲, 吴西顺, 张炜, 等. 全球页岩油气勘探开发进展及发展趋势[J]. 中国矿业,2016,25(2):7-15. Wang Shuling, Wu Xishun, Zhang Wei, et al. Progress and trend of global exploration and development for shale resources[J]. China Mining Magazine, 2016,25(2):7-15.
[23] 罗佐县. 美国海恩斯维尔页岩气产业发展模式分析与启示[J]. 石油科技论坛,2016,35(1):50-55. Luo Zuoxian. Analysis of US Ha ynesville shale gas industrial development pattern[J].Oil Forum,2016,35(1): 50-55.
[24] 陈平, 刘阳, 马天寿. 页岩气“井工厂”钻井技术现状及展望[J]. 石油钻探技术,2014,42(3):1-7. Chen Ping, Liu Yang, Ma Tianshou. Status and prospect of Multi-Well pad drilling technology in shale gas[J]. Petroleum Drilling Techniques,2014,42(3):1-7.
[25] Olof Hummes, Paul Bond, Anthony Jones, et al. Using advanced drilling technology to enable well factory concept in the Marcellus shale[R].SPE 151466,2012.
[26] Demong K L, Boulton K A, Elgar T, et al. The evolution of high density pad design and work flow in shale hydrocarbon developments[R].SPE 165673,2013.
[27] 杨金华, 何艳青, 郭晓霞. 美国油气钻井业发展的新特点与启示建议[J]. 国际石油经济,2014,22(9):20-28. Yang Jinhua, He Yanqing, Guo Xiaoxia. Newly developed features of the U.S. oil and gas drilling industry, and their implications[J]. International Petroleum Economics, 2014,22(9):20-28.