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水平井中钻柱旋转对岩屑运移影响规律研究 被引量:10

Study on the Influence of the Rotation of Drill String on Cuttings Transportation in Horizontal Well
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摘要 由于水平井井身结构的特殊性,岩屑较易在斜井段及水平段中沉积形成岩屑床,进而导致卡钻等一系列问题。分析了水平井岩屑运移机理,并建立了水平井中岩屑运移临界流速数学模型。研究钻柱偏心度、转速、井斜角、岩屑粒径及流体粘度对于临界流速的影响。研究表明,钻柱转速增大,直井段岩屑运移临界流速增大,水平段岩屑运移流速减小;井斜角较小时,岩屑运移所需的临界流速随偏心度增大;井斜角较大时,在偏心度较小条件下,岩屑运移所需的临界流速略有增大;而在偏心度较大条件下,岩屑受钻柱转动影响进入悬浮运移状态,运移所需的临界流速急剧减小。岩屑粒径越大其运移所需的临界流速越高,钻井液黏度的增大有利于降低岩屑运移临界流速。 Because of the peculiarities of the casing program of horizontal well,it’s easier for cuttings to deposit in the horizontal and inclined sections of the wellbore and cause a series problems such as pipe sticking etc. in the operation. The mechanisms of cuttings transport in horizontal wells was analyzed and established the mathematical model of critical velocity for cuttings transport to study how eccentricity,rotate speed,inclination,cuttings size and viscosity affect the critical velocity. The conclusion was drawn that with the rotate speed of the drilling string increases. The critical velocity increases in vertical section and in contrast decreases in horizontal section. When the inclination is relatively small,critical velocity increases with the increase of the eccentricity; when the inclination is larger,critical velocity increases slightly with small eccentricity and decreases sharply in large eccentricity because of the suspension state of the cuttings affected by the rotation of the string. The critical velocity is higher if the cuttings size is greater. Increasing the viscosity of the drilling fluid is good for reducing the cuttings transport critical velocity.
作者 张好林 李根生 肖莉 杨传书
机构地区 中国石化石油工程技术研究院 中国石油大学(北京)石油工程学院
出处 《科学技术与工程》 北大核心 2016年第2期125-130,共6页 Science Technology and Engineering
基金 国家重点基础研究发展计划(973计划)(2010CB226700) 中国石油化工股份有限公司科技攻关(P13093)资助
关键词 水平井 岩屑运移 钻柱旋转 偏心度 转速 horizontal well cuttings transport drillstring rotation eccentricity rotate speed
分类号 TE21 [石油与天然气工程—油气井工程]
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参考文献8

  • 1Massie G W, Castle-Smith J, Lee J W, et al. Amoco's training initi- ative reduces weltsite drilling problems. Petroleum Engineer Interna- tional, March, 1995. 被引量:1
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二级参考文献52

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共引文献19

同被引文献124

引证文献10

二级引证文献46

科学技术与工程
2016年 第2期

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