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深水油气井浅层固井水泥浆性能研究 被引量:10

Study on Shallow Formation Cement Slurry Performance in Deepwater Drilling
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摘要 针对深水油气井浅层固井存在的逆向温度场,对水泥浆在低温下的稠化时间、抗压强度和流变性能进行了分析,结果显示:在低温下水泥浆的稠化时间明显延长,抗压强度发展缓慢,流变性能变差。因此,针对深水固井试验中温度模拟方法与陆地固井的不同,介绍了深水固井循环温度和静止温度的确定方法,设计了可以用来测试深水固井水泥浆性能的稠化试验装置及静胶凝试验装置。同时设计了不同密度的深水固井水泥浆配方,并对其性能进行了测试,结果表明,所设计的不同密度深水固井水泥浆,在低温条件下早期强度发展快(4 MPa/16h),流变性好,防气窜能力强,沉降稳定性能好,能满足深水表层套管固井的需要。 For the problem of reverse temperature gradient in shallow formation cementing for deepwater drilling,the thickening time, compressive strength, and rheology of cement slurry at low temperature were analyzed. The results indicate that an obvious long thickening time;a slow development of compressive strength and a poor theology were observed at low temperature. Since the temperature simulation method in deep water cementing experiment is different with that of onshore, this paper presents the method for predicting bottomhole circulating temperature (BHCT) and bottomhole static temperature (BHST). Test equipment to measure the performance of deepwater slurry thickening and static gel test equipment were designed. The deep-water slurry formula with different densities was developed, and the performance was tested. The test results indicate that the cement slurry has a rapid compressive strength development at 4 ℃ (4 MPa/16 h) ,a good rheology,anti-gas migration ability and no sedimentation. The cement slurry can meet the requirement for cementing the upper casing string in deepwater wells.
作者 屈建省 席方柱 谭文礼 熊钰丹
机构地区 中国石油海洋工程有限公司 天津中油渤星工程科技有限公司
出处 《石油钻探技术》 CAS 北大核心 2011年第2期22-26,共5页 Petroleum Drilling Techniques
基金 国家高技术研究发展计划("863"计划)课题"深水钻完井关键技术"(编号:2006AA09A106)资助
关键词 深水钻井 浅层固井 水泥浆性能 实验室试验 deepwater drilling shallow zone cementing cement slurry property laboratory testing
分类号 TE256.7 [石油与天然气工程—油气井工程]
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参考文献11

  • 1王清顺,张群,徐绍诚,陈小华,田荣剑.海洋深水固井温度模拟技术[J].石油钻探技术,2006,34(4):67-69. 被引量:12
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  • 5Pelletier J H,Ostermeier R M, Winker C D. Shallow water flow sands in the deepwater Gulf of Mexico.. some recent shell experience: proceedings International Forum on Shallow Water Flows, Leaque City,Teaxas, October 6-9,1999[C].
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  • 8Romero J, Loizzo M. The importance of hydration heat on cement strength development for deep water wells [R]. SPE 62894,2000.
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二级参考文献17

  • 1胡友林,王建华,张岩,吴彬,向兴金.海洋深水钻井的钻井液研究进展[J].海洋石油,2004,24(4):83-86. 被引量:20
  • 2张勇,宋金初.井眼循环温度分布规律[J].内蒙古石油化工,2005,31(12):127-128. 被引量:2
  • 3Ravi K. Biezen EN, Lightford SC. et al. Deepwater cemening challenges[R]. SPE 56534, 1999.
  • 4Phil Rae. Gino Di I,ullo. Lightweight cement formulations for deep water cementing: fact and fiction [R]. SPE91002,2004.
  • 5Kenneth Hampshire, Mike McFadyen. Overcoming deepwater cementing challenges in South China Sea, East Malaysia [R].IADC SPE 88012, 2004.
  • 6Calvert D G. Griffin T J. Determination of temperature for cementingin wells drilled in deep water [R] . SPE39315. 1998.
  • 7Romero J. Touboul E. Temperature prediction for deepwater wells: a validated methodology[R].SPE49056, 1998.
  • 8Romero J. I.oizzo M. The importance of hydration heat on cement strength development for deepwater wells [R] . SPE 6289,1, 2000.
  • 9Jim O'Leary, Juan Carlos Flores, Paulo Rubinstein. et al. Cementing deepwater, low temperature Gulf of Mexico formations prone to shallow flows [R] . IADC/SPE87161. 2004.
  • 10王友华,吴彬,徐绍成.水基钻井液体系在低温条件下的流变性探讨[J].石油天然气学报,2005,27(S4):106-107. 被引量:5

共引文献80

同被引文献120

引证文献10

二级引证文献99

石油钻探技术
2011年 第2期

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