Difficulties in Cementing Liners in Block Tambococha 43 and Corresponding Measures
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摘要: 厄瓜多尔TAMBOCOCHA区块单井日产量300~1100 t。因开采需求导致井身结构特殊,φ244.5 mm技术套管下深距产层小于30 m,随钻井径数据失真严重,水泥浆用量难以确定,φ177.8 mm尾管固井施工风险高。下尾管前不通井、窄间隙顶替效率低、产层油水活跃等问题导致固井质量难以保证。通过对复合前置液体系设计,微膨胀胶乳水泥浆体系研究及窄间隙旋转尾管固井施工工艺研究,形成了TAMBOCOCHA区块底水油藏旋转尾管固井技术,该技术有助于尾管下入到位,准确估算裸眼段环空容积,有效提高套管居中度;前置液冲洗效率为93%,水泥浆12 h抗压强度为36.4MPa。现场应用15口井,固井质量优质率达95%,为强底水油藏大斜度小间隙井固井提供技术支撑,解决了厄瓜多尔TAMBOCOCHA区块特殊井身结构的固井难题。
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关键词:
- 尾管固井 /
- 复合前置液体系 /
- 微膨胀胶乳水泥浆体系 /
- TAMBOCOCHA区块 /
- 厄瓜多尔
Abstract: The daily production rate of a single well in the Block Tambococha in Ecuador is from 300 t to 1,100 t. The casing program is special because of special production requirements; the distance between the running depth of the φ177.8 mm liner and the top of the reservoir is less than 30 m. Caliper logging data acquired from LWD are seriously distorted, making it difficult to determine the amount of cement slurry, and a high risk of cementing the φ177.8 mm liner exists. Previous practice shows that the job quality of cementing cannot be ensured if wiper trip is not performed prior to running liners, or a high displacement efficiency in narrow annulus cannot be obtained, or the oil and water in the reservoir are active. A rotating liner cementing technology for use in bottom water reservoirs in Block Tambococha was developed through designing of a compound spacer, studying on micro-expansion latex cement slurry as well as studying on the rotating liner cementing techniques for annulus of narrow clearance. This technology is helpful to run liner to the designed depth, to accurately determine the annular volume of an open hole section and to improve the casing centrality. The flushing efficiency of the spacer is 93%, and the 12 h compressive strength of the set cement slurry is 36.4 MPa. Application of the technology on 15 wells gave a rate of excellent cementing job quality of 95%, providing a technical support to the success of cementing narrowannular-clearance highly deviated wells for strong bottom water reservoirs and resolving the problem of cementing wells with special casing profile in Block Tambococha in Ecuador.-
Key words:
- Liner cementing /
- Compound space /
- Micro-expansion latex cement slurry /
- Block Tambococha /
- Ecuador
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[1] 宋生印, 一种提高钻井用套管螺纹抗扭矩特性的对顶环:CN, 200520142110.8[P].2006-11-15. SONG Shengyin. A kind of opposite vertex ring for improve the peak torque of thread in the casing:CN, 200520142110.8[P].2006-11-15. [2] 阮臣良, 王小勇, 张瑞, 等. 大斜度井旋转尾管下入关键技术[J]. 石油钻探技术, 2016, 14(7):52-57.RUAN Chenliang, WANG Xiaoyong, ZHANG Rui, et al. Key techniques of rotating liners running in high angle wells[J]. Petroleum Drilling Techinques, 2016, 14(7):52-57. [3] 阮臣良, 张瑞, 张国安, 等. 旋转尾管固井技术在南海WZ12-2油田的应用[J]. 石油机械, 2016, 44(7):60-64.RUAN Chenliang, ZHANG Rui, ZHANG Guoan, et al. Application of rotating liner cementing technology in WZ12-2 oilfield in south China sea[J]. China Petrolelm Machinery, 2016, 44(7):60-64. [4] 沈海超, 胡晓庆, 王希玲, 等. 监测井下循环情况的迟到时间法在固井中的应用[J]. 钻井液与完井液, 2012, 29(3):58-60.SHEN Haichao, HU Xiaoqing, WANG Xiling, et al. Application of late arrival time method for monitoring downhole circulation in cementing[J]. Drilling Fluid & Completion Fluid, 2012, 29(3):58-60. [5] 丁士东, 高德利, 于东, 等. 不同套管-井眼组合下旋转套管速度分析研究[J]. 石油钻探技术, 2006, 34(6):33-35.DING Shidong, GAO Deli, YU Dong, et al. Research and analysis the velocity of rotating casing en different casing-openhole[J]. Petroleum Drilling Techniques, 2006, 34(6):33-35. [6] 郑友志, 刘伟, 余才焌, 等, 旋转套管固井工艺技术在LG-A井的应用[J]. 天然气工业, 2010(4):74-76. ZHENG Youzhi, LIU Wei, YU Caijun, et al. Application of rotating liner cementing technology in LG-A[J]. Natural Gas Industry, 2010(4):74-76. [7] 张庆豫, 张绍先, 郑殿富, 等. 旋转尾管固井工艺技术现状[J]. 钻采工艺, 2007, 30(4):35-37.ZHANG Qingyu, ZHANG Shaoxian, ZHENG Dianfu, et al. The curing technology of rotating liner cementing[J]. Drilling & Production Technology, 2007, 30(4):35-37. [8] 步玉环, 郭胜来, 马明新, 等. 复杂井眼条件下旋转套管速度对固井质量的影响[J]. 石油学报, 2011, 32(3):529-533.BU Yuhuan, GUO Shenglai, MA Mingxin, et a1. Influence of rotation casing speed on well-cement quality under the bad hole conditions[J]. Acta Petrol Ei Sinica, 2011, 32(3):529-533. [9] 王金堂, 孙宝江, 李昊, 等. 大位移井旋转套管固井顶替模拟分析[J].中国石油大学学报, 2015, 39(3):89-97.WANG Jintang, SUN Baojiang, LI Hao, et al. Simulation analysis of rotating-casing cementing displacement in extended reach well[J]. Journal of China University of Petroleum, 2015, 39(3):89-97. [10] 刘明峰, 张宇, 熊腊生, 等. 苏4K-P4井复杂井况下尾管固井工艺[J]. 石油钻采工艺, 2017, 39(2):197-200.LIU Mingfeng, ZHANG Yu, XIONG Lasheng, et al. Liner cementing technology suitable for complex conditions of Well Su 4K-P4[J]. Oil Drilling & Production Technology, 2017, 39(2):197-200. -
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