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《China Petroleum Machinery》 2004-01
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Development and application of an electric igniter for combustion drive

Li Shulan(Oil Production Technology Research Institute, Shengli Oilfield Company, Dongying City, Shandong Province), Li Youping, Fan Haitao, et al.  
The electric ignition system for combustion drive is mainly comprised of cable, air compressor, retaining ring and igniter. The electric energy is transferred to the heating resistor in the igniter through the cable, heating air to a temperature above the ignition point of the crude oil so as to ignite part of the oil in the formation and realize combustion drive. The rate of the compressed air can be regulated by the heating power, while the heating power can be adjusted by the rate of the compressed air. And the technological parameters can also be optimized by regulating the proportion of the air inside and outside the igniter chamber through changing the retaining ring diameter. Test in an oil well shows that, by applying the combustion drive with the electric ignition system for only 3 days, evident production increment is found in 11 wells around the test well.
【Fund】: 中国石油化工集团公司 2 0 0 1~ 2 0 0 3年度重点项目“稠油火烧驱油开采技术研究”中的研究内容 项目编号KZD2 2 0 0 10 0 6
【CateGory Index】: TE934
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【Co-citations】
Chinese Journal Full-text Database 5 Hits
1 HAN XiaShengli Engineer Design Consultation Company of Shengli Oilfield,Dongying 257000;Corrosion Case Analysis and Anti-corrosion Countermeasures for Facilities of a Combustion Gas Injection Well for Oil Displacement in Zheng-408 Block[J];Corrosion Science and Protection Technology;2010-03
2 CUI Yu-feng 1 YANG De-wei 2 CHEN Yu-li 3 AN Shen-fa 4 LIU Zhong-liang 5 (1.Institute of Engineering Thermophysics,Chinese Academy of Sciences,Beijing 100080,China; 2.University of Petroleum,Dongying 257061, China; 3.Shengli Oil Production Plant,Shengli Petroleum Administration Bureau, Dongying 257000,China; 4.Research Institute of Oil Production Technology,Shengli Petroleum Administration Bureau,Dongying 257000,China; 5.Beijing University of Technology,Beijing 100022,China);Numerical simulation of thermal flooding process of in-situ combustion[J];Acta Petrolei Sinica;2004-05
3 CHAI Li-wen1,2,JIN Zhao-xun2(1.China University of Petroleum,Beijing 102249,China;2.Liaohe Oilfield Company,PetroChina,Panjin,Liaoning 124125,China);Pilot study of in situ combustion for mid-deep thick heavy oil reservoir[J];Special Oil & Gas Reservoirs;2010-03
4 Liu Xingbang,Li Weizhong,Li Hongyi Guangzhou Institute of Geochemistry,Chinese Academy of Sciences,Guangzhou City,Guangdong Province,510640,China;Application evaluation on in-situ combustion in strong water sensitivity heavy oil reservoir-case of Zheng 408 block,Sha III reservoir of Wangzhuang oilfield[J];Petroleum Geology and Recovery Efficiency;2010-04
5 Chen Lijuan Cai Gang Yu Jie Chen Long Pan Jingjun (Oil Production Technology Research Institute of Xinjiang Oilfield Company);Analyses of Energy-saving and Emissionreducing Effect of Heavy Oil Fire Flooding Exploitation Technique[J];Environmental Protection of Oil & Gas Fields;2010-S1
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