Status Quo of Water Base Drilling Fluid Technology for Shale Gas Drilling in China and Abroad and Its Developing Trend in China
-
摘要: 综述了国内外页岩气井井壁失稳机理、稳定井壁主要方法及水基钻井液技术研究与应用现状,讨论了当前中国页岩气井钻井液技术面临的主要技术难题,分析了美国页岩气井与中国主要页岩气产区井壁失稳机理的差异,指出了中国页岩气井水基钻井液技术研究存在的误区与不足,提出了中国页岩气井水基钻井液技术发展方向。Abstract: This paper summarizes the studies and applications of the mechanism of borehole collapse, the main methods used for stabilizing instable borehol, and the status quo of water base drilling fluid technology, discusses the major difficulties presently faced in shale gas drilling in China, analyzes the differences between the mechanisms of borehole collapse both in China and in the America, illustrates the misconceptions and deficiencies existed in the studies on water base drilling fluids for shale gas drilling in China, and points out the technical direction for the development of water base drilling fluids for shale gas drilling in China.
-
Key words:
- Horizontal shale gas well /
- Water base drilling fluid /
- Borehole wall stabilization /
- Summarize /
-
TAN C P, RAHMAN S S, RICHARDS B G. Integrated approach to drilling fluid optimisation for efficient shale instability management[C].SPE 48875,1998. TAN C P, RAHMAN S S, RICHARDS B G. Integrated rock mechanics and drilling fluid design approach to manage shale instability[C]. SPE/ISRM 47259,1998. MKPOIKANA R, DOSUNMU A, EME C, et al. Prevention of shale instability by optimizing drilling fluid performance[C]. SPE 178299-MS 2015. SANDRA GOMEZ, WENWU HE. Fighting wellbore instability:customizing drilling fluids based on laboratory studies of shale-fluid interactions[C]. SPE/IADC 155536-MS,2012. SCHLEMMER R, FRIEDHEIM J E, GROWCOCK F B. Chemical osmosis, shale, and drilling fluids. SPE Drilling and Completion. 2003, 18, 318-331. JAY P DEVILLE,BRADY FRITZ,MICHAEL JARRETT. Development of water-based drilling fluids customized for shale reservoirs[C]. SPE 140868-PA, 2011. TAN C P, WILLOUGHBY D R, MOHD AZRIYUDDIN YAAKUB. Drilling fluid optimisation study for k-shale in the Malay Basin[C]. IADC/SPE 62795,2000. GERMANOVICH L N,DYSKIN A V.Fracture mechanisms and instability of openings in compression[J]. International Journal of Rock Mechanics and Mining Sciences,2000,37(1/2);263-284. ANURADEE WITTHAYAPANYANON, JEROME LELEUX, JULIEN VUILLEMET, et al. High performance water-based drilling fluids-an environmentally friendly fluid system achieving superior shale stabilization while meeting discharge requirement offshore cameroon[C]. SPE/IADC 163502-MS,2013. IKE ELEANYA O, H.LLKIN BILGESU,SAM AMERI. Study of drilling fluid additives and their impact on smectite inhibition, marcellus shale inhibition, and filtration and rheological properties of bentonite based drilling fluids[C].SPE 149271-MS,2011. ERIC VAN OORT,HALE A H,MODY F K,et al. Transport in shales and the design of improved waterbased shale drilling fluids[C].SPE 28309-PA,1996. MANOHAR LAL. Shale stability:Drilling fluid interaction and shale strength[C].SPE 54356,1999. RUSSELL T EWY, E KEITH MORTON.Wellborestability performance of water-based mud additives[J]. SPE Drilling and Completion,2009,24. G.M.BOL. The effect of various polymers and salts on borehole and cutting stability in water-base shale drilling fluids[C].SPE 14802-MS,1986. HEMPHILL T, ABOUSLEIMAN Y N, TRAN M H, et al. Direct strength measurements of shale interaction with drilling fluids[C].SPE 117851-MS,2008. JULIO C M,ERIC V O,RICARDO B,et al.Using a low-salinity high-performance water-based drilling fluid for improved drilling performance in Lake Maracaibo[C]. SPE-110366-MS,2007. YOUNG S, FRIEDHEIM J. Environmentally friendly drilling fluids for unconventional shale[C]. OMC 2013-102, 2013. TOMISLAV SORIC,PAVEL MARINESCU, ROBERT HUELKE. Silicate-based drilling fluids deliver optimum shale inhibition and wellbore stability[C]. SPE/IADC 87133-MS, 2004. World oil's fluid systems[J]. World Oil. 2010, 231(6):93-117. World oil's fluid systems[J]. World Oil. 2013, 234(6):130. RUSSELL T EWY, MORTON E KEITH.Wellborestability performance of water-based mud additives[J]. SPE Drilling and Completion,2009,24(3):390-397. 谢晓永,王怡. 川西须家河组页岩气水基钻井液技术[J]. 断块油气田,2014,21(6):802-805. XIE Xiaoyong,WANG Yi. Water-based drilling fluid technology for Xujiahe Formation shale gas in western Sichuan[J]. Fault-Block Oil & Gas Field,2014,21(6):802-805. 闫丽丽,李丛俊,张志磊,等. 基于页岩气"水替油"的高性能水基钻井液技术[J]. 钻井液与完井液,2015, 32(5):1-7. YAN Lili, LI Congjun, ZHANG Zhilei, et al. High performance water base drilling fluid for shale gas drilling[J]. Drilling Fluid & Completion Fluid,2015, 32(5):1-6. 邹才能,陶士振,侯连华,等. 非常规油气地质[M]. 北京:地质出版社,2011:127-142. ZOU Caineng, TAO Shizhen, HOU Lianhua, et al. Unconventional oil and gas geology[M]. Beijing:Geological Publishing House, 2011:127-142. 刘敬平,孙金声. 钻井液活度对川滇页岩气地层水化膨胀与分散影响[J]. 钻井液与完井液, 2016, 33(2):31-35. LIU Jingping, SUN Jinsheng. Impact of drilling fluids activity on hydration expansion and dispersion in gas shale formations in Chuan or Dian[J].Drilling Fluid & Completion Fluid,2016, 33(2):31-35. 刘敬平, 孙金声.页岩气藏地层井壁水化失稳机理与稳定方法研究[J]. 钻井液与完井液, 2016, 33(3):25-29. LIU Jingping, SUN Jinsheng. Study on borehole hydration instability mechanism in shale gas reservoirs and the controlling method[J]. Drilling Fluid & Completion Fluid, 2016, 33(3):25-29.
点击查看大图
计量
- 文章访问数: 1914
- HTML全文浏览量: 384
- PDF下载量: 1126
- 被引次数: 0