[1]安少辉 刘爱萍 高永会 邹建龙 汤少兵.胶乳水泥浆体系在剑门1井尾管悬挂固井中的应用[J].石油钻采工艺,2008,30(6):062-66.
 AN Shaohui,LIU Aiping,GAO Yonghui,et al.Application of latex cement slurry system to well cementing with liner of Jianmen-1 well[J].Oil Drilling & Production Technology,2008,30(6):062-66.
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胶乳水泥浆体系在剑门1井尾管悬挂固井中的应用
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《石油钻采工艺》[ISSN:1000-7393/CN:13-1072/TE]

卷:
30卷
期数:
2008年6期
页码:
062-66
栏目:
钻井完井
出版日期:
2008-12-20

文章信息/Info

Title:
Application of latex cement slurry system to well cementing with liner of Jianmen-1 well
文章编号:
1000 – 7393( 2008 ) 06 – 0062 – 05
作者:
安少辉 刘爱萍 高永会 邹建龙 汤少兵
(中国石油集团海洋工程有限公司固井事业部固井研究所,天津 300451)
Author(s):
AN Shaohui LIU Aiping GAO Yonghui ZOU Jianlong TANG Shaobing
(Cementing Research Institute, Cementing Department of China National Offshore Petroleum Engineering Co., Ltd., Tanggu 300451, China)
关键词:
固井气侵井漏间歇式低压挤水泥胶乳水泥浆体系
Keywords:
cementing gas cut lost circulation intermittent low pressure cement squeeze latex cement slurry system
分类号:
TE256.7
文献标志码:
A
摘要:
剑门1 井是四川石油管理局承钻的一口重点预探井,该井井底压力高达120 MPa,多次发生气侵、井漏。鉴于此种情
况,现场决定四开钻至5004 m 中途完钻,下?177.8 mm 尾管固井。为解决深层高压井尾管固井问题,选用了胶乳水泥浆体系,
对该体系的失水控制和防漏失性能、防窜性能、水泥石性能,水泥浆流变性,水泥浆的稳定性、水泥浆稠化时间进行了室内试验。
工艺方面采用正注反挤、间歇式低压挤水泥的固井工艺,以减少一次注替静液柱压力过大造成的漏失,易于建立挤水泥压力。
经优选水泥浆体系和采用适合该井井况的固井工艺,成功地封隔了 4584~4930 m 4 个严重漏失层,取得了较好的作业效果。剑
门1 井?177.8 mm 尾管悬挂固井的成功经验可供此类复杂井固井参考。
Abstract:
Jianmen-1 well is an important exploration well of Sichuan Petroleum Administration Bureau. The downhole pressure
reaches as high as 120 MPa, the accidents of gas cutting and lost circulation have occurred for many times. Therefore, the fourth spudding
is stopped as it reaches to the depth of 5004 m, cementing with ?177.8 mm liners. The latex cement slurry system is selected to
solve the problem in liner cementing in deep high-pressure wells. The system has good properties in fluid-loss control, leak resistance,
and channeling control. By using the system, the properties of cement rock and the rheological behavior of cement paste may be enhanced,
the cement slurry may get more stable, and the thickening time may be adjusted easily. The positive injection-reverse squeezing
technology and the intermittent low pressure cement squeezing technology are used in well cementing, to lower leakage caused by the
higher primary hydrostatic pressure, and to form cement squeezing pressure easily. Four severe circulation loss zones ranging from 4584
m to 4930 m are isolated successfully by using the slurry system selected and the cementing process fit for Jinmen-1 well. Good results
are obtained. The successful cementing with ?177.8 mm liner hanging in the well may provide good reference for cementing in similar
complicated wells.

参考文献/References:

[1]  路俊刚,郭小阳,杨香艳,等. 胶乳水泥体系的室内研究
[J]. 西部探矿工程,2006,18(2):78-80.
LU Jungang, GUO Xiaoyang, YANG Xiangyan,et al. Latex
cement system’s indoor research[J]. Western Prospecting
Project, 2006, 18(2): 78-80.
[2]  王顺利,毛敬勋,孙富全,等. 吉林油田长深5 井抗高温
胶乳水泥浆固井技术[J]. 石油钻采工艺,2007,29(5):
93-97.
WANG Shunli, MAO Jingxun, SUN Fuquan, et al. Jilin oil
field Changshen5 well anti-high temperature latex-cement
slurry well cementation technology[J]. Oil Drilling &
Production Technology, 2007, 29(5): 93-97.
[3]  李文建,姚晓,王太聪. 国外胶乳水泥固井技术[J].
石油钻探技术,1997,25(2):34-36.
LI Wenjian, YAO Xiao, WANG Taicong. Overseas latex cement
well cementation technology[J]. Oil drilling technology,
1997, 25(2): 34-36.
[4]  靳建洲,孙富全,侯薇,等. 胶乳水泥浆体系研究及应用
[J]. 钻井液与完井液,2006,23(2):37-39.
JIN Jianzhou, SUN Fuquan, HOU Wei, et al. Latex-cement
slurry system research and application[J]. Drilling Fluid
and Completion Fluid, 2006, 23(2): 37-39.
[5]  郭建国. 深井、大斜度井尾管悬挂固井工艺[J]. 石油
钻采工艺,2005,27(2):10-12.
GUO Jianguo. Drilling liner cementing technology in deep
and high angle well[J]. Oil Drilling & Production Technology,
2005, 27(2): 10-12.

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更新日期/Last Update: 2009-01-21