[1]吴晗 吴晓东 师俊峰  闫荣堃.热流体循环在超深井中的应用[J].石油钻采工艺,2008,30(5):077-79.
 WU Han,WU Xiaodong,SHI Junfeng,et al.Application of hot fluid circulation to ultra-deep well[J].Oil Drilling & Production Technology,2008,30(5):077-79.
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热流体循环在超深井中的应用
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《石油钻采工艺》[ISSN:1000-7393/CN:13-1072/TE]

卷:
30卷
期数:
2008年5期
页码:
077-79
栏目:
油气开采
出版日期:
2008-10-20

文章信息/Info

Title:
Application of hot fluid circulation to ultra-deep well
文章编号:
1000 – 7393 ( 2008 ) 05 – 0077 – 03
作者:
吴晗1 吴晓东1 师俊峰1  闫荣堃2
1.中国石油大学石油工程教育部重点实验室,北京昌平 102249;2.冀东油田分公司高尚堡采油作业区,河北唐海 063200
Author(s):
WU Han1 WU Xiaodong1 SHI Junfeng1 YAN Rongkun2
1.Key Laboratory for Petroleum Engineering of the Ministry of Education, China University of Petroleum, Beijing 102249, China; 2.Gaoshangbao Production Operational Area of CNPC Jidong Oilfield Company, Tanghai 063200, China
关键词:
超深井热流体?环稠油温度模型
Keywords:
ultra-deep well hot fluid circulation heavy oil temperature model
分类号:
TE345
文献标志码:
A
摘要:
针对塔河稠油油藏超深的特点,对传统的热流体?环工艺加以改进,将加热点从井底向上移,使热流体部分加热原油。建立了该方法分析井筒温度分布的数学模型,并进行求解。通过分析影响井筒温度参数的敏感性,优化出热流体?环的运行参数。该方法能够有效解决热流体?环工艺在超深稠油井中所遇到的困难,有效利用了能量,并达到较好的加热效果。
Abstract:
In view of the ultra-deep feature of TaHe heavy oil reservoir, traditional hot fluid circulation technique was improved, in which heating point moved upward from bottom hole so that hot fluid could heat part of crude oil. This paper develops the mathematical model of wellbore temperature distribution and solves it. By analyzing sensitivity of the parameters influencing wellbore temperature, optimal operation parameters of hot fluid circulation are obtained. Field practice shows that the new technology can effectively solve the problems existed in hot fluid circulation technique used in ultra-deep heavy oil well, with effective utilization of energy and preferable heating effect.

参考文献/References:

[1]任英.加热开采稠油工艺的讨论-井筒中的热流体?环[J]. 华东石油学院学报,1982,6(4):53-65.
REN Ying. Thermal production of viscous oil with recycling of hot fluid in wellbore[J]. Journal of the University of Petroleum, China, 1982, 6(4): 53-65.
[2] 梁金国,任英,王弥康. 热流体闭式?环采油工艺[J]. 石油钻采工艺,1990,12(2):83-88.
LIANG Jinguo, REN Ying, WANG Mikang. Hot fluid circulation technology[J]. Oil Drilling & Production Technology, 1990, 12(2): 83-88.
[3] 彭苏萍,王虎. 塔河油田深井稠油开采技术[J]. 油气田地面工程,2002,21(6):133-134.
PENG Suping, WANG Hu. Development technology of deep well heavy oil reservoir in Tahe oilfield[J]. Oil-gasfield Surface Engineering, 2002, 21(6): 133-134.
[4] 曲日涛,苏海芳,曹嫣红.中深层稠油油藏开采新技术[J]. 油气田地面工程,2006,25(3):19-24.
QU Ritao, SU Haifang, CAO Yanhong. New technology to develop middle and deep heavy oil reserveoir[J]. Oil-gasfield Surface Engineering, 2006, 25(3): 19-24.
[5]陈月明. 注蒸汽热力采油[M]. 山东东营:石油大学出版社,1996:128-133.
CHEN Yueming. Thermal production through steam injection[M]. Dongying, Shandong: China University of Petroleum Press, 1996: 128-133.
[6] 吴晓东,师俊峰,竺彪. ?环热流体开采稠油优化设计方法研究[J]. 石油钻探技术,2006,34(6):1-3.
WU Xiaodong, SHI Junfeng, ZHU Biao. A study of recovering heavy-oil reservoir with hot fluids[J]. Petroleum Drilling Techniques, 2006, 34(6): 1-3.
[7]赵刚,马远乐,鲁港. 井筒热流体?环的数学模型及其解析解[J]. 西南石油学院学报,1996,18(4):57-61.
ZHAO Gang, MA Yuanle, LU Gang. Mathematical model of wellbore hot fluid circulation and its analytical solution[J]. Journal of Southwest Petroleum Institute, 1996, 18(4): 57-61.
[8]单学军.稠油开采中井筒温度影响因素分析[J]. 石油勘探与开发,2004,31(3):136-138.
SHAN Xuejun. The factors influencing the wellbore temperature in heavy oil production[J]. Petroleum Exploration and Development, 2004, 31(3): 136-138.

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更新日期/Last Update: 2008-11-13