底水气藏大斜度井开发优化设计研究

doi:10.3969/j.issn.1673-8926.2015.02.018

Lithologic Reservoirs ›› 2015, Vol. 27 ›› Issue (2): 114-118.doi: 10.3969/j.issn.1673-8926.2015.02.018

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Optimization of development of highly deviated well in gas reservoir with bottom water

ZHANG Yu¹， ZHONG Haiquan²， LI Yongchen³， GUO Chunqiu⁴， SHI Haidong⁴

1. No. 1 Oil Production Plant ， PetroChina Daqing Oilfield Company Ltd. ， Daqing 163152 ， Heilongjiang ， China ； 2. State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation ， Southwest Petroleum University ， Chengdu 610500 ， China ；3. Xinzhou Branch ， PetroChina Coalbed Methane Co. Ltd. ， Baode 036603, Shanxi ， China ； 4. PetroChina Research Institute of Petroleum Exploration & Development ， Beijing 100083 ， China

Online:2015-03-03 Published:2015-03-03

Abstract

Abstract:

The most important matter on the development of highly deviated well in gas reservoir with bottom water is water coning. A basic model of highly deviated well in gas reservoir with bottom water was established by means of numerical simulation methods. Applying orthogonal design method to analyze the interaction of compound parameters during highly deviated well developing the gas reservoir with bottom water can quickly and accurately obtain a more reasonable holistic optimization result different from the conventional local optimization with single parameter. Meanwhile, for the sake of accurate simulating of development features, used multi-segment well model to consider the effect of the friction and flow coupling between formation and well bore, and applied tracers to accurately simulate water breakthrough time of bottom water, which make the index optimization more reasonable and reliable. The result shows that the height of water avoidance at the toe of deviated segment can affect water breakthrough time and water-free recovery percent obviously, and the length of deviated segment and producing pressure drop play a major role on the recovery percent in the final prediction.This study has importance in guiding efficient development of highly deviated well in gas reservoir with bottomwater.

Key words: tight oil reservoir, source rock, logging response, interpretation model, lower member of Upper Ganchaigou Formation, Zhahaquan area, Qaidam Basin

ZHANG Yu， ZHONG Haiquan， LI Yongchen， GUO Chunqiu， SHI Haidong. Optimization of development of highly deviated well in gas reservoir with bottom water[J].Lithologic Reservoirs, 2015, 27(2): 114-118.

References

［1］刘石磊，郑荣才，颜文全，等．阿姆河盆地阿盖雷地区牛津阶碳酸盐岩储层特征［J］．岩性油气藏，2012，24（1）：57-63.

Liu Shilei，Zheng Rongcai，Yan Wenquan，et al． Characteristics of Oxfordian carbonate reservoir in Agayry area，Amu Darya Basin［J］．Lithologic Reservoirs，2012，24（1）：57-63.

［2］夏崇双．不同类型有水气藏提高采收率的途径和方法［J］．天然气工业，2002，22（增刊 1）：73-77.

Xia Chongshuang． Ways and methods of enhancing recovery in various water-carrying gas reservoirs［J］． Natural Gas Industry，2002，22（S1）：73-77.

［3］唐人选，赵梓平，刘娟．水平井产量影响因素分析［J］．复杂油气藏，2011，4（4）：45-49.

Tang Renxuan，Zhao Ziping，Liu Juan． Analysis of the controlling factors of horizontal well production［J］. Complex Hydrocarbon Reservoirs，2011，4（4）：45-49.

［4］李冬梅．TH 油田凝析气藏水平井试井合理压差的确定［J］．岩性油气藏，2007，19（1）：130-133．

Li Dongmei． Determination of reasonable pressure difference for horizontal well test of condensate gas reservoir testing in TH oil field［J］． Lithologic Reservoirs，2007，19（1）：130-133．

［5］Ozkan E，Raghavan R． Performance of horizontal wells subject to bottomwater drive［R］． SPE 18559，1990．

［6］郭康良，郭旗，程时清．凝析气藏水平井产能计算模型及方法研究［J］．岩性油气藏，2007，19（1）：120-123．

Guo Kangliang，Guo Qi，Cheng Shiqing． Model and method to the productivity calculation for horizontal well of condensate gas reservoir［J］． Lithologic Reservoirs，2007，19（1）：120-123．

［7］陈海龙，李晓平，李其正．水平井段最优段长度的确定方法研究［J］．西南石油学院学报，2003，25（1）：47-48．

Chen Hailong，Li Xiaoping，Li Qizheng． Study of the determining method of optimum length of horizontal well［J］． Journal of South-west Petroleum Institute，2003，25（1）：47-48．

［8］吴克柳，李相方，韩易龙，等．底水气藏水平井临界生产压差变化规律［J］．新疆石油地质，2011，32（6）：630-633．

Wu Keliu，Li Xiangfang，Han Yilong，et al． Variation of critical producing pressure differential of horizontal well in gas reservoir with bottom water［J］． Xinjiang Petroleum Geology，2011，32（6）：630-633．

［9］范子菲，李云娟，纪淑红．气藏水平井长度优化设计方法［J］．大庆石油地质与开发，2000，19（6）：28-33．

Fan Zifei，Li Yunjuan，Ji Shuhong． A method of optimized design of horizontal well length in gas reservoirs［J］． Petroleum Geology Oilfield Development in Daqing，2000，19（6）：28-33．

［10］符奇，张烈辉，胡书勇，等．底水油藏水平井水平段合理位置及长度的确定［J］．石油钻采工艺，2009，31（1）：51-55．

Fu Qi，Zhang Liehui，Hu Shuyong，et al． Determination of optimum horizontal section location and length for horizontal wells in bottom water reservoir［J］． Oil Drilling Production Technology，2009，31（1）：51-55．

［11］王涛，赵进义.底水油藏水平井含水变化影响因素分析［J］．岩性油气藏，2012，24（3）：104-107．

Wang Tao，Zhao Jinyi． Influencing factors of water cut for horizontal wells in bottom water reservoir［J］. Lithologic Reservoirs，2012，24（3）：104-107．

［12］Thakur S，Bally K，Therry D，et al． Performance of horizontal wells in a thin oil zone between a gas cap and an aquifer immortelle field Trinidad［R］． SPE 36752，1996．

［13］匡铁．考虑水平井井筒摩阻效应的数值模拟研究［J］．内蒙古石油化工，2012（7）：134-135．

Kuang Tie． Numerical simulation study on horizon wellbore considering friction effect［J］． Inner Mongolia Petrochemical Industry，2012（7）：134-135．

［14］张枫，李治平，董萍，等．最优开发指标确定方法及其在某低渗气藏的应用［J］．天然气地球科学，2007，18（3）：464-468．

Zhang Feng，Li Zhiping，Dong Ping，et al． Method research of the decision on development indexes ［J］． Natural Gas Geoscience， 2007，18（3）：464-468．

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