我国石油企业三次采油技术预见理论及应用
|
摘要
石油供给安全是国家安全的重要组成部分,本土石油供给在这组成部分中占有重要地位,我国石油企业多数面临中后期开采,三次采油技术成为保障产量的关键,继而成为经济、社会和环境共同关注的领域,在处理技术发展规划的理论和方法中,技术预见正成为一种系统的高层次工具平台。目前,把技术预见应用到企业中的某一技术领域的研究较少,因此,本论文具有很强的理论意义与实践价值。
论文通过技术预见方法分析,构建了中国石油企业的三次采油技术预见理论,它包括三个关键部分:战略情景分析、三次采油技术体系建立及三次采油技术预见方法设计,最后以大庆油田三次采油技术发展规划为例进行了实践应用,取得了建设性结果和建议。
从战略情景分析中,揭示了与三次采油技术预见有紧密关系的国家层次的四大战略转变及企业层次的可持续发展面临的五大挑战,为技术预见的情景构造打下了基础。
以继承和发展为主线,深刻剖析了三次采油技术的内涵和外延,详细调查了国内外三次采油技术的发展现状,从三次采油技术的外延层面上构建了技术预见过程中的三次采油技术体系,它包括化学驱、热力驱、气驱、微生物驱、物理驱、其它等六大类技术和18项关键技术,并对18项技术进行了机理及特点方面的总结与分析。
深入分析了技术预见的特点,比较了技术预见理论所涉及的各种方法,进而设计了中国石油企业三次采油技术预见方法体系,分别从非专家参与的文献计量分析和专家参与的群体综合集成两个方面进行了研究,以关键情景分析与智慧研讨集成为基础,建立了三次采油技术预见的评价指标体系和专家组成体系,并创造性地设计了在群体专家意见综合集成时考虑分歧专家的计算方法。
通过对大庆油田三次采油发展规划的技术预见实例,前瞻性地给出了不同阶段的发展规划,并就技术预见的过程和结果提出了若干战略对策。
Safety of petroleum supply has been an important part of a country, among which domestic petroleum supply has played an important role. Most of China petroleum enterprises are confronted with medium and late production phase, so tertiary oil recovery technology has been the key for ensuring production and the domain attracting the common attention of economy, society and environment. Technology foresight is going to be a systematic high-level instrument platform among the treatment technology development layout theories and methods. At present, technology foresight is seldom used in some technology domain of enterprise. Therefore, this paper has crucial theory significance and practice value.
Tertiary oil recovery technology foresight theory of China petroleum enterprise has been put forward in this paper by technology foresight analysis, including three key parts: stratagem circumstance design, tertiary oil recovery technology system establishment and technology foresight method analysis. Finally take Daqing oilfield tertiary oil recovery technology development layout as an example to carry out, constructive results and suggestions are obtained in this paper.
According to the stratagem circumstance analysis, four stratagem transitions tightly connected with tertiary oil recovery technology foresight of a country and five challenges faced by sustainable development of an enterprise have been discovered, which set foundation for circumstance construction of technology foresight
Accordance with the main thought of inheriting and developing, the intension and extension of tertiary oil recovery technology has been anatomized profoundly. The development situation of internal and external abroad tertiary oil recovery technology has been researched in detail. Tertiary oil recovery technology system of technology foresight has been constructed from the extension of tertiary oil recovery technology, which includes chemical flooding, thermal flooding, gas flooding, microbial flooding, physical flooding etc. six main kinds of technologies and eighteen key technologies. The mechanism and character of the eighteen technologies has also been summarized and analyzed.
Technology foresight character has been analyzed deeply. All kinds of methods involved by technology foresight theory have been compared. Then tertiary oil recovery technology foresight system of China petroleum enterprise has been set up. Literature measure analysis with no expert participation and group comprehension integration with expert participation have been researched respectively. Based on the key circumstance analysis and wisdom discussion integration, the evaluation norm system and expert constitution system of tertiary oil recovery
论文通过技术预见方法分析,构建了中国石油企业的三次采油技术预见理论,它包括三个关键部分:战略情景分析、三次采油技术体系建立及三次采油技术预见方法设计,最后以大庆油田三次采油技术发展规划为例进行了实践应用,取得了建设性结果和建议。
从战略情景分析中,揭示了与三次采油技术预见有紧密关系的国家层次的四大战略转变及企业层次的可持续发展面临的五大挑战,为技术预见的情景构造打下了基础。
以继承和发展为主线,深刻剖析了三次采油技术的内涵和外延,详细调查了国内外三次采油技术的发展现状,从三次采油技术的外延层面上构建了技术预见过程中的三次采油技术体系,它包括化学驱、热力驱、气驱、微生物驱、物理驱、其它等六大类技术和18项关键技术,并对18项技术进行了机理及特点方面的总结与分析。
深入分析了技术预见的特点,比较了技术预见理论所涉及的各种方法,进而设计了中国石油企业三次采油技术预见方法体系,分别从非专家参与的文献计量分析和专家参与的群体综合集成两个方面进行了研究,以关键情景分析与智慧研讨集成为基础,建立了三次采油技术预见的评价指标体系和专家组成体系,并创造性地设计了在群体专家意见综合集成时考虑分歧专家的计算方法。
通过对大庆油田三次采油发展规划的技术预见实例,前瞻性地给出了不同阶段的发展规划,并就技术预见的过程和结果提出了若干战略对策。
Safety of petroleum supply has been an important part of a country, among which domestic petroleum supply has played an important role. Most of China petroleum enterprises are confronted with medium and late production phase, so tertiary oil recovery technology has been the key for ensuring production and the domain attracting the common attention of economy, society and environment. Technology foresight is going to be a systematic high-level instrument platform among the treatment technology development layout theories and methods. At present, technology foresight is seldom used in some technology domain of enterprise. Therefore, this paper has crucial theory significance and practice value.
Tertiary oil recovery technology foresight theory of China petroleum enterprise has been put forward in this paper by technology foresight analysis, including three key parts: stratagem circumstance design, tertiary oil recovery technology system establishment and technology foresight method analysis. Finally take Daqing oilfield tertiary oil recovery technology development layout as an example to carry out, constructive results and suggestions are obtained in this paper.
According to the stratagem circumstance analysis, four stratagem transitions tightly connected with tertiary oil recovery technology foresight of a country and five challenges faced by sustainable development of an enterprise have been discovered, which set foundation for circumstance construction of technology foresight
Accordance with the main thought of inheriting and developing, the intension and extension of tertiary oil recovery technology has been anatomized profoundly. The development situation of internal and external abroad tertiary oil recovery technology has been researched in detail. Tertiary oil recovery technology system of technology foresight has been constructed from the extension of tertiary oil recovery technology, which includes chemical flooding, thermal flooding, gas flooding, microbial flooding, physical flooding etc. six main kinds of technologies and eighteen key technologies. The mechanism and character of the eighteen technologies has also been summarized and analyzed.
Technology foresight character has been analyzed deeply. All kinds of methods involved by technology foresight theory have been compared. Then tertiary oil recovery technology foresight system of China petroleum enterprise has been set up. Literature measure analysis with no expert participation and group comprehension integration with expert participation have been researched respectively. Based on the key circumstance analysis and wisdom discussion integration, the evaluation norm system and expert constitution system of tertiary oil recovery
引文
[1] 钱伯章.2002年全球能源消费结构[J],中国能源,2003.25(7):24.
[2] 钱永坤.加入WTO后能源工业面临的问题与对策[J].中国能源,2000,1:5-8.
[3] 魏东.温室气体减排与21世纪我国的能源发展战略[J].能源技术,2001,23(2):87-90.
[4] 傅诚德.中国石油科学技术50年[M].北京:石油工业出版社,2000.4.
[5] 王瑞祥,穆荣平.从技术预测到技术预见:理论与方法[J].世界科学,2003.4.
[6] 李建民.全球技术预见大趋势[M].上海科学技术出版社,2002.10.
[7] The Results of the User Survey on the 6th Technology Forecact Survey, NISTEP Report No 69, 2000-03.
[8] Martin, Ben R, Irvine, J. Research Foresight: Priority-Setting in Science. London: Priter Publishers 1989.
[9] Anderson J. Technology Foresight for Competitive Advantage. Long Range Planning, 1997,30(5): 665-667.
[10] Godet M. The Art of Scenarios and Strategic Planning: Tools and Pitfalls. Tehchnology Forecasting and Social Change, 2000, 65:3-22.
[11] Martin B. Johnston R. Technology Foresight for wiring up the National Innovation System. Technological Forecasting and Social Change, 1999, 60: 37-54.
[12] 陈春.技术预见与日本的成功实践[J].世界科技研究与发展,2004.12:87-90.
[13] 杨多贵,周志田.国外典型科技发展计划案例分析及其启示[J].科学对社会的影响,2004.3:5-7.
[14] 叶继涛.技术预见在爱尔兰[J].世界科学,2003.12:40-41.
[15] Ronde and Patrick. Delphi analysis of national specification in selected innovative areas in Germany and France. Technological Forecasting and Social Change, 2003.
[16] Shin, Taeyoung, Hong Soon-Ki, Grupp, Hariolf. Technological foresight activities in Korea and in countries closing the technology gap. Technological Forecasting and Social Change, 1999.
[17] Statistical Analysis of National Science and Technology Programs Activities of National R&D Institutes and Cooperation among Government, Industry and Academia in Japan, NISTEP Report No 15, 1993-01.
[18] Background and Professional Activities of Natural Science Research Personnel in Japan. NISTEP Report No 20, 1992-02.
[19] Results of the sixth Technology Forecast Survey-Future Technology in Japan Toward The Year 2025. NISTEP Report No 52.
[20] The Fifty Technology Forecast Survey-Future Technology in Japan. NISTEP Report No 14, 1992-11.
[21] 万劲波.技术预见与创新型社会建设[J].世界科学,2005.12:41-43.
[22] 孟新华,崔志明.高新技术及其产业技术预见实证研究[J].科学管理研究,2005.5:60-64.
[23] 钟华.国防科技前沿技术预见[J].国防科技,2005.11:70-72.
[24] 袁志彬,穆荣平,陈洪元.我国能源领域共性技术发展展望[J].中国科技论坛,2005.9:16-21.
[25] 杨耀武.论科学技术学的建构及技术预见学研究[J].科学学研究,2005.5:597-600.
[26] 杨耀武,全利平.社会需求与技术预见[J].世界科学,2005.9:41-42
[27] 彭靖里,谭海霞,邓艺,赵光洲.技术预见理论在产业集群创新能力分析中的应用[J].科技与经济,2005.2:16-18.
[28] 王远征,梁明,蓝彬.科技发展规划中的技术预见研究[J].青岛行政学院学报,2005.1:64-67.
[29] 高红阳,张少杰.基于外在技术预见的国家宏观发展战略研究思考[J].科学学与科学技术管理,2005.3:73-77.
[30] 薛军,杨耀武.论技术预见及其在制定中长期科技规划中的作用[J].软科学,2005.1:53-56.
[31] 叶继涛,胡建绩.技术预见与可持续经济发展[J].研究与发展管理,2004.4:58-63.
[32] 中国未来20年技术预见研究组.中国未来20年技术预见[M].科学出版社,2006.1.
[33] 陈铁龙.三次采油概论[M].地质出版社,2000.11。
[34] 傅诚德,刘振武.世界石油科技发展趋势与展望[M].石油工业出版社,1997.9.
[35] WANG DEMIN, CHEN GJIECHENG, YANG QINGYAN, etal. Viscous-Elastic Polymer Can Increase Microscale Displacement Efficiency in Cores. SPE63227, 2000.
[36] Taber J T. SOC. Petrol. Eng. J. 1969.9.
[37] French T R, Burchfield T T. SPE/DOE 20238. 1990.
[38] Li G Z, Shen Q etal. J. Disper. Sci. Technol. 1999,(20):559.
[39] Top-Injection and Bottom.-Production (TINBOP) Cyclic Steam-Injection Method Enhances Oil RecoveryE. Matus, SPE, and D.D. Mamora, SPE, Texas A&M U: 97850-MS.
[40] Investigation of a Smart Steamflood Pattern To Enhance Production From San Ardo Field, CaliforniaD. D. Mamora, SPE, and J. E. Sandoval, SPE, Texas A&M U:95491-MS.
[41] Microbial Enhanced Oil Recovery: A Sober Look at an Infectious IdeaSteven Bryant, University of Texas:101452-DL.
[42] CO2 Injection for Enhanced 6as Recovery and Geo-Storage: Reservoir Simulation and EconomicsA. Al-Hashami, S.R. Ren, SPE, and B. Tohidi, SPE, Inst. of Petroleum Engineering, Heriot-Watt U: 94129-MS.
[43] Production Enhancement for a Northern Mexico Field Well Resulting from Flowback Evaluations Using Chemical Frac Tracers: A Case History A.L. Hurtado, SPE, PEMEX; M. Asadi, SPE, and R.A. Woodroof, SPE, ProTechnics; and D.D. Casas, SPE, and R. Morales, SPE, Jeito S.A. de C.V: 95064-MS.
[44] Effect of Gas Recycling on the Enhancement of Condensate Recovery in Toual Field Algeria, A Case StudyElhadi Belaifa, Sonatrach Inc., Djebbar Tiab, U. of Oklahoma, Adel Dehane, PED/Sonatrach, Sarfraz Jokhio, U. of Oklahoma: 80899-MS.
[45] Simulation Study of Miscible Gas Injection for Enhanced Oil Recovery in Low Permeable Carbonate Reservoirs in Abu DhabiW. van Vark, S.K. Masalmeh, J. van Dorp, Shell Abu Dhabi; M. Abu Al Nasr, S. Al-Khanbashi, Abu Dhabi National Oil Company: 88717-MS.
[46] Enhanced Oil Recovery and Elimination of Gas Coning by Using Salt CrystalsI. Koncz, M. Megyery, A. Szittar, Gy. Tiszai, Independent Expert: 89392-MS.
[47] 李建荣.全世界提高采收率的采油现状[J].国外油田工程,2000.6:6-10.
[48] 金佩强.美国能源部选择的应用技术[J].国外油田工程,2005.9:4-12.
[49] F.JaySchempf.美国不断推广应用CO_2驱提高采收率技术[J].国外油田工程,2001.7:15-16.
[50] 刘新.东得克萨斯油田提高采收率技术[J].国外油田工程,2006.2:1-4.
[51] 姜伟.加拿大稠油开发技术现状及我国渤海稠油开发新技术应用思考[J].中国海上油气,2006.2:123-125.
[52] S.M.Farouq Ali,Sara Thomas.EOR在轻油和重油开采中的应用[J].国外油田工程,2001.6:1-3.
[53] E.S.Denbina.稠油冷采模拟研究[J].国外油田工程,2003.1:8-12.
[54] Ra jK.Srivastava.用CO_2、产出气及烟道气提高重油采收率的效果对比[J].国外油田工程, 2000.2:1-6.
[55] 刘颖.巴什科尔托斯坦油田提高采收率新方法的应用[J].国外油田工程,2003.5:8-10.
[56] 1995.
[57] 1999.
[58] 2000.
[59] 2000.
[60] 冈秦麟.论我国的三次采油技术[J].油气采收率技术,1998.12:1-8.
[61] 华建海,李干佐.三次采油技术的发展现状及展望[J].化工科技市场,2000.7:17-20.
[62] 王启民,冀宝发,隋军,郭万奎,计秉玉.大庆油田三次采油技术的实践与认识[J].大庆石油地质与开发,2001.4:1-10.
[63] 郭万奎,程杰成,廖广志.大庆油田三次采油技术研究现状及发展方向[J].大庆石油地质与开发,2002.6:1-7.
[64] 陈国军,韩立国,郝风娟.大庆油田三次采油剂的研究[J].辽宁化工,2000.3:129-130.
[65] 计秉玉.对大庆油田进一步开展三次采油技术研究工作的几点意见[J].大庆石油地质与开发,2003.12:60-63.
[66] 孙春芬,赵兰水,金桂芬.聚合物驱和三元复合驱经济效益分析[J].石油规划设计,2005.10:23-27
[67] Schieb P. The OECD International Future Program: Making the Most of 21st Century Technologies, Presentation at Conference on Science and Technology Foresight, Hsinchu, Taiwan, 1999.
[68] 王瑞祥,穆荣平.从技术预测到技术预见:理论与方法[J].世界科学,2003.4:49-51.
[69] 浦根祥,孙中锋,万劲波.技术预见的定义及其与技术预测的关系[J].科技导报,2002.7:15-19.
[70] 王仲茂,王怀彬.高新采油技术[M].石油工业出版社,1998.9.
[71] 范玉平,刘其成.分子子膜驱油技术.石油工业出版社[M],2001.7.
[72] 李群,赖于民.技术预见:从战略视角把握关键技术选择[J].云南科技管理,2003.6:13-15.
[73] 杨起全.我国重点高新技术领域技术预见与关键技术选择研究实施方案[J].世界科学,2003.4:38-40.
[74] 万劲波,崔志明,浦根祥.技术预见、关键技术选择与产业发展[J].科学学研究,2003.11:41-46.
[75] 崔志明,万劲波,浦根祥,施琴芬.技术预见与国家关键技术选择应遵循的基本原则[J].科学学与科学技术管理,2002.12:9-13.
[76] 穆荣平等.中国未来20年技术预见德尔菲调查方法研究[J].科研管理,2006.11-7.
[77] 穆荣平,任中保.技术预见德尔菲调查中技术课题选择研究[J].科学学与科学技术管理,2006.3:22-25.
[78] 张学才,郭瑞雪.情景分析方法综述[J],理论月刊,2005.8:125-126.
[79] 宋彧,韩江宁,王影.浅谈科技管理中的科技预测[J].黑龙江交通科技,2001.5:85-87.
[80] 陶菊春.趋势外推预测模型的识别与选择研究[J].西北师范人大学报(自然科学版),2005.6: 14-17.
[81] 郭鹏,赵青.西部投资:现代投资组合几个技术层面的问题[J].西北大学学报(哲学社会科学版),2004.2:31-34。
[82] 邵波.企业竞争与反竞争情报中的专利分析[J].情报科学,2006.3:361-365.
[83] 邱均平,段宇锋,陈敬全.我国文献计量学发展的回顾与展望[J].科学学研究,2003.4:143-149.
[84] Technology Foresight in Japan-The Potential and Implications of DELPHI Approach. Terutaka Kuwahara. The Proceeding of International Conference on Technology Foresight, NISTEP Material No 77, 2001-03.
[85] Satoh, Yaguchi, kuwabara, (Thchnology Forecast Research Team)Japanese and German Technology Forecast Survey (mini-Delphi). NISSTEP Report No 42.
[86] 王辉艳,武锐,吕代中.头脑风暴综述[J].吉林省经济管理干部学院学报,2005.5:53-55。
[87] 张军.全面建设小康社会:中国特色社会的可持续发展战略[J].学术交流,2003.9:121-123。
[88] 吕书正.全面小康社会评价标准研究综述[J].理论前沿,2004.5:52-56.
[89] BP Statistical Review of World Energy June 2006.
[90] 李果仁.21世纪我国石油安全的战略对策[J].石油科技论坛,2006.1:14-17.
[91] 徐飞,姜卓青.我国石油安全问题与对策[J].合作经济与科技,2006.1:10-11.
[92] 刘增洁,吴初国.我国石油安全供应面临的问题[J].国土资源情报,2005.11:51-55.
[93] 李凌峰,张斌,杜志敏.中国石油交全危机预警研究[J].石油天然气学报,2005.1:308-310.
[94] 张宏民.我国能源政策及战略设计—现代能源战略经济学理论及应用研究[D].中国石油大学(北京)博士论文,2002.5.
[95] 王砾.树立技术创新的社会观念是推动我国技术创新的社会基础[J].商场现代化,2006.5:31-33.
[96] 贾文瑞.21世纪中国能源、环境与石油工业发展[M].石油工业出版社,2002。
[97] 傅诚德.科学技术对石油工业的作用及发展对策[M].石油工业出版社,1999.
[98] 葛家理,申炼.系统协调论—系统学的认识论、方法论和“生命”学说[M].石油工业出版社,1997.10.
[99] 希罗卡诺夫,M.A斯列姆涅夫.现代科学的发展规律性与认识方法[M],复旦大学出版社,1982.
[100] 刘建虎.国际油价将持续高位震荡[J].中国石化,2006.4:60.
[101] 我国可再生能源配套优惠政策即将出台——BP携”新能源”拓展太阳能市场,石油商报2005年12月27日.
[102] 单洪青.世界主要跨国石油石化公司的发展之路,http://supersuny.bokee.com,7/7/2004.
[103] 严绪朝.石油公司应积极探索开发替代能源和新能源[J].中国石油企业,2005:14-16.
[104] 葛家理.现代油藏渗流力学原理[M].北京:石油工业出版社,2001.
[105] 赵福麟,张贵才,周洪涛.李宜坤.二次采油与三次采油的结合技术及其进展[J].石油学报,2001.5:38-42.
[106] 刘振武,方朝亮.21世纪初中国油气应用基础研究展望[M].石油工业出版社,2003.6.
[107] 刘振武,方朝亮.21世纪初中国油气关键技术研究展望[M].石油工业出版社,2003.6.
[108] 徐伟生,闫云贵,邢立国.大港油田三次采油地面工艺现状及发展方向[J].石油钻采工艺,2002(增):70-73.
[109] 薛爱信.孤岛油田三次采油现状及配套技术[J].油气地面工程,2003.6:3-4.
[110] 赖枫鹏.微生物采油技术发展概述[J].资源与产业,2006.2:61-63.
[111] 曾龙伟,郭洪岩,杨秀丽.物理法采油技术[M].石油工业出版社,2001.8.
[112] 耿正.基于数据挖掘的智能决策支持系统[J].鸡西大学学报,2006,6(4):65-67.
[113] Shi Yong, Human Casting&&A Fundamental Method to Overcome Computer Network Information Overload, 2000.
[114] 李勇,肖智,曹国华.数据挖掘技术在管理中的应用[J].重庆大学学报(社会科学版),2002.6:26-28.
[115] 王金明,田利娟.试论数据挖掘技术在企业管理中的应用[J].企业经济,2005.1:45-47.
[116] 戴稳胜,张阿兰.数据挖掘的方法、流程及应用[J].中国统计,2004.7:53-54.
[117] 邱均平.文献计量学[M].科学技术文献出版社,1988.
[118] 倪波.文献学概论[M].江苏教育出版社,1990.
[119] 吕志坚.综合集成研讨厅中的专家研讨与思维研究[D].中国科学院自动化研究所博士论文,2004.6.
[120] 张家才.综合集成研讨厅中支撑环境的设计与实现[D].中国科学院自动化研究所博士论文,2004.6.
[121] 崔霞,戴汝为,李耀东.群体智慧在综合集成研讨厅体系中的涌现[J].系统仿真学报,2003.1.
[122] 杨学英.层次分析法及模糊综合评判在工程评标中的应用[J].科技进步与对策,2002.4:132-134.
[123] 杨虹,邱祝强.改进层次分析法在配送中心选址中的应用[J].铁道运输与经济,2004.7:26-29.
[124] 王丹力,戴汝为.群体一致性及其在研讨厅中的应用[J].系统工程与电子技术,2001.7:33-37.
[125] 彭木红,孙绍荣,张文健.研讨厅中专家意见的可靠性研究[J].系统工程理论方法应用,2004.4:343-345
[126] Mohamed A A, Wiebe F A. Towards a process theory of group think. Small Group Research, 1996.27.
[127] Granstrom K. Stivne D. A bipolar model of group think. Small group reaearch, 1998.29.
[128] Schafer. Mark. Antecedents of group think. Journal of Conflict reaolution, 1996.3.
[129] Anders Pehrsson. Strategy competence: A key profitability driver. Strategic Change, Mar-Apr, 2000.
[130] C. K. Prahalad & Gary Hamel. The Core Competence of the Corporationm. Harvard Business Review, May-June, 1900.
[131] Leonard Barton. D. Core Capabilities and Core Rigidities:A Paradox in Managing New Product Development. Strategic Management Journal, vol. 13, P111-127,1992.
[132] 大庆油田有限责任公司.大庆油田开发技术座谈会报告集,2002.
[133] 大庆油田有限责任公司勘探开发研究院.立足精细挖潜 推进技术创新 努力实现“11599”工作目标,2004.1.
[134] 大庆油田有限责任公司勘探开发研究院.深化油藏认识 发展开发技术 为创建百年油田提供技术支撑,2004.12.
[135] 王玉普.我国特大石油企业持续发展理论与应用研究——大庆油田公司可持续发展战略研究(D),石油大学(北京)博士论文,2003.4.
[136] 王玉普.夯实发展基础 提升核心能力 全力推进百年油田伟大实践,2005.2.
[137] 王启民.大庆油田三次采油技术的实践与认识.大庆石油地质与开发,2001.2.
[138] 郭万奎,程杰成,廖广志.大庆油田三次采油技术研究现状及发展方向[J].大庆石油地质与开 发,2002.3:1-7.
[139] 程杰成.“十五”期间大庆油田三次采油技术的进步与下步攻关方向[J].大庆石油地质与开发,2006.1:18-21.
[140] 王德民.大庆油田“三元”“二元”“一元”驱油研究[J].大庆石油地质与开发,2003.3:1-10.
[141] 廖广志,牛金刚,邵振波,陈鹏.大庆油田工业化聚合物驱效果及主要做法[J].大庆石油地质与开发,2004.1:48-52.
[142] 黄学.技术预见在三次采油发展战略中的应用[J].大庆石油地质与开发,2006,25(4):88-91.
[143] 黄学,许关利,邵振波,孙刚.聚丙烯酰胺共混溶液的流变特性[J].大庆石油学院学报,2006,26(4):1-3
[2] 钱永坤.加入WTO后能源工业面临的问题与对策[J].中国能源,2000,1:5-8.
[3] 魏东.温室气体减排与21世纪我国的能源发展战略[J].能源技术,2001,23(2):87-90.
[4] 傅诚德.中国石油科学技术50年[M].北京:石油工业出版社,2000.4.
[5] 王瑞祥,穆荣平.从技术预测到技术预见:理论与方法[J].世界科学,2003.4.
[6] 李建民.全球技术预见大趋势[M].上海科学技术出版社,2002.10.
[7] The Results of the User Survey on the 6th Technology Forecact Survey, NISTEP Report No 69, 2000-03.
[8] Martin, Ben R, Irvine, J. Research Foresight: Priority-Setting in Science. London: Priter Publishers 1989.
[9] Anderson J. Technology Foresight for Competitive Advantage. Long Range Planning, 1997,30(5): 665-667.
[10] Godet M. The Art of Scenarios and Strategic Planning: Tools and Pitfalls. Tehchnology Forecasting and Social Change, 2000, 65:3-22.
[11] Martin B. Johnston R. Technology Foresight for wiring up the National Innovation System. Technological Forecasting and Social Change, 1999, 60: 37-54.
[12] 陈春.技术预见与日本的成功实践[J].世界科技研究与发展,2004.12:87-90.
[13] 杨多贵,周志田.国外典型科技发展计划案例分析及其启示[J].科学对社会的影响,2004.3:5-7.
[14] 叶继涛.技术预见在爱尔兰[J].世界科学,2003.12:40-41.
[15] Ronde and Patrick. Delphi analysis of national specification in selected innovative areas in Germany and France. Technological Forecasting and Social Change, 2003.
[16] Shin, Taeyoung, Hong Soon-Ki, Grupp, Hariolf. Technological foresight activities in Korea and in countries closing the technology gap. Technological Forecasting and Social Change, 1999.
[17] Statistical Analysis of National Science and Technology Programs Activities of National R&D Institutes and Cooperation among Government, Industry and Academia in Japan, NISTEP Report No 15, 1993-01.
[18] Background and Professional Activities of Natural Science Research Personnel in Japan. NISTEP Report No 20, 1992-02.
[19] Results of the sixth Technology Forecast Survey-Future Technology in Japan Toward The Year 2025. NISTEP Report No 52.
[20] The Fifty Technology Forecast Survey-Future Technology in Japan. NISTEP Report No 14, 1992-11.
[21] 万劲波.技术预见与创新型社会建设[J].世界科学,2005.12:41-43.
[22] 孟新华,崔志明.高新技术及其产业技术预见实证研究[J].科学管理研究,2005.5:60-64.
[23] 钟华.国防科技前沿技术预见[J].国防科技,2005.11:70-72.
[24] 袁志彬,穆荣平,陈洪元.我国能源领域共性技术发展展望[J].中国科技论坛,2005.9:16-21.
[25] 杨耀武.论科学技术学的建构及技术预见学研究[J].科学学研究,2005.5:597-600.
[26] 杨耀武,全利平.社会需求与技术预见[J].世界科学,2005.9:41-42
[27] 彭靖里,谭海霞,邓艺,赵光洲.技术预见理论在产业集群创新能力分析中的应用[J].科技与经济,2005.2:16-18.
[28] 王远征,梁明,蓝彬.科技发展规划中的技术预见研究[J].青岛行政学院学报,2005.1:64-67.
[29] 高红阳,张少杰.基于外在技术预见的国家宏观发展战略研究思考[J].科学学与科学技术管理,2005.3:73-77.
[30] 薛军,杨耀武.论技术预见及其在制定中长期科技规划中的作用[J].软科学,2005.1:53-56.
[31] 叶继涛,胡建绩.技术预见与可持续经济发展[J].研究与发展管理,2004.4:58-63.
[32] 中国未来20年技术预见研究组.中国未来20年技术预见[M].科学出版社,2006.1.
[33] 陈铁龙.三次采油概论[M].地质出版社,2000.11。
[34] 傅诚德,刘振武.世界石油科技发展趋势与展望[M].石油工业出版社,1997.9.
[35] WANG DEMIN, CHEN GJIECHENG, YANG QINGYAN, etal. Viscous-Elastic Polymer Can Increase Microscale Displacement Efficiency in Cores. SPE63227, 2000.
[36] Taber J T. SOC. Petrol. Eng. J. 1969.9.
[37] French T R, Burchfield T T. SPE/DOE 20238. 1990.
[38] Li G Z, Shen Q etal. J. Disper. Sci. Technol. 1999,(20):559.
[39] Top-Injection and Bottom.-Production (TINBOP) Cyclic Steam-Injection Method Enhances Oil RecoveryE. Matus, SPE, and D.D. Mamora, SPE, Texas A&M U: 97850-MS.
[40] Investigation of a Smart Steamflood Pattern To Enhance Production From San Ardo Field, CaliforniaD. D. Mamora, SPE, and J. E. Sandoval, SPE, Texas A&M U:95491-MS.
[41] Microbial Enhanced Oil Recovery: A Sober Look at an Infectious IdeaSteven Bryant, University of Texas:101452-DL.
[42] CO2 Injection for Enhanced 6as Recovery and Geo-Storage: Reservoir Simulation and EconomicsA. Al-Hashami, S.R. Ren, SPE, and B. Tohidi, SPE, Inst. of Petroleum Engineering, Heriot-Watt U: 94129-MS.
[43] Production Enhancement for a Northern Mexico Field Well Resulting from Flowback Evaluations Using Chemical Frac Tracers: A Case History A.L. Hurtado, SPE, PEMEX; M. Asadi, SPE, and R.A. Woodroof, SPE, ProTechnics; and D.D. Casas, SPE, and R. Morales, SPE, Jeito S.A. de C.V: 95064-MS.
[44] Effect of Gas Recycling on the Enhancement of Condensate Recovery in Toual Field Algeria, A Case StudyElhadi Belaifa, Sonatrach Inc., Djebbar Tiab, U. of Oklahoma, Adel Dehane, PED/Sonatrach, Sarfraz Jokhio, U. of Oklahoma: 80899-MS.
[45] Simulation Study of Miscible Gas Injection for Enhanced Oil Recovery in Low Permeable Carbonate Reservoirs in Abu DhabiW. van Vark, S.K. Masalmeh, J. van Dorp, Shell Abu Dhabi; M. Abu Al Nasr, S. Al-Khanbashi, Abu Dhabi National Oil Company: 88717-MS.
[46] Enhanced Oil Recovery and Elimination of Gas Coning by Using Salt CrystalsI. Koncz, M. Megyery, A. Szittar, Gy. Tiszai, Independent Expert: 89392-MS.
[47] 李建荣.全世界提高采收率的采油现状[J].国外油田工程,2000.6:6-10.
[48] 金佩强.美国能源部选择的应用技术[J].国外油田工程,2005.9:4-12.
[49] F.JaySchempf.美国不断推广应用CO_2驱提高采收率技术[J].国外油田工程,2001.7:15-16.
[50] 刘新.东得克萨斯油田提高采收率技术[J].国外油田工程,2006.2:1-4.
[51] 姜伟.加拿大稠油开发技术现状及我国渤海稠油开发新技术应用思考[J].中国海上油气,2006.2:123-125.
[52] S.M.Farouq Ali,Sara Thomas.EOR在轻油和重油开采中的应用[J].国外油田工程,2001.6:1-3.
[53] E.S.Denbina.稠油冷采模拟研究[J].国外油田工程,2003.1:8-12.
[54] Ra jK.Srivastava.用CO_2、产出气及烟道气提高重油采收率的效果对比[J].国外油田工程, 2000.2:1-6.
[55] 刘颖.巴什科尔托斯坦油田提高采收率新方法的应用[J].国外油田工程,2003.5:8-10.
[56] 1995.
[57] 1999.
[58] 2000.
[59] 2000.
[60] 冈秦麟.论我国的三次采油技术[J].油气采收率技术,1998.12:1-8.
[61] 华建海,李干佐.三次采油技术的发展现状及展望[J].化工科技市场,2000.7:17-20.
[62] 王启民,冀宝发,隋军,郭万奎,计秉玉.大庆油田三次采油技术的实践与认识[J].大庆石油地质与开发,2001.4:1-10.
[63] 郭万奎,程杰成,廖广志.大庆油田三次采油技术研究现状及发展方向[J].大庆石油地质与开发,2002.6:1-7.
[64] 陈国军,韩立国,郝风娟.大庆油田三次采油剂的研究[J].辽宁化工,2000.3:129-130.
[65] 计秉玉.对大庆油田进一步开展三次采油技术研究工作的几点意见[J].大庆石油地质与开发,2003.12:60-63.
[66] 孙春芬,赵兰水,金桂芬.聚合物驱和三元复合驱经济效益分析[J].石油规划设计,2005.10:23-27
[67] Schieb P. The OECD International Future Program: Making the Most of 21st Century Technologies, Presentation at Conference on Science and Technology Foresight, Hsinchu, Taiwan, 1999.
[68] 王瑞祥,穆荣平.从技术预测到技术预见:理论与方法[J].世界科学,2003.4:49-51.
[69] 浦根祥,孙中锋,万劲波.技术预见的定义及其与技术预测的关系[J].科技导报,2002.7:15-19.
[70] 王仲茂,王怀彬.高新采油技术[M].石油工业出版社,1998.9.
[71] 范玉平,刘其成.分子子膜驱油技术.石油工业出版社[M],2001.7.
[72] 李群,赖于民.技术预见:从战略视角把握关键技术选择[J].云南科技管理,2003.6:13-15.
[73] 杨起全.我国重点高新技术领域技术预见与关键技术选择研究实施方案[J].世界科学,2003.4:38-40.
[74] 万劲波,崔志明,浦根祥.技术预见、关键技术选择与产业发展[J].科学学研究,2003.11:41-46.
[75] 崔志明,万劲波,浦根祥,施琴芬.技术预见与国家关键技术选择应遵循的基本原则[J].科学学与科学技术管理,2002.12:9-13.
[76] 穆荣平等.中国未来20年技术预见德尔菲调查方法研究[J].科研管理,2006.11-7.
[77] 穆荣平,任中保.技术预见德尔菲调查中技术课题选择研究[J].科学学与科学技术管理,2006.3:22-25.
[78] 张学才,郭瑞雪.情景分析方法综述[J],理论月刊,2005.8:125-126.
[79] 宋彧,韩江宁,王影.浅谈科技管理中的科技预测[J].黑龙江交通科技,2001.5:85-87.
[80] 陶菊春.趋势外推预测模型的识别与选择研究[J].西北师范人大学报(自然科学版),2005.6: 14-17.
[81] 郭鹏,赵青.西部投资:现代投资组合几个技术层面的问题[J].西北大学学报(哲学社会科学版),2004.2:31-34。
[82] 邵波.企业竞争与反竞争情报中的专利分析[J].情报科学,2006.3:361-365.
[83] 邱均平,段宇锋,陈敬全.我国文献计量学发展的回顾与展望[J].科学学研究,2003.4:143-149.
[84] Technology Foresight in Japan-The Potential and Implications of DELPHI Approach. Terutaka Kuwahara. The Proceeding of International Conference on Technology Foresight, NISTEP Material No 77, 2001-03.
[85] Satoh, Yaguchi, kuwabara, (Thchnology Forecast Research Team)Japanese and German Technology Forecast Survey (mini-Delphi). NISSTEP Report No 42.
[86] 王辉艳,武锐,吕代中.头脑风暴综述[J].吉林省经济管理干部学院学报,2005.5:53-55。
[87] 张军.全面建设小康社会:中国特色社会的可持续发展战略[J].学术交流,2003.9:121-123。
[88] 吕书正.全面小康社会评价标准研究综述[J].理论前沿,2004.5:52-56.
[89] BP Statistical Review of World Energy June 2006.
[90] 李果仁.21世纪我国石油安全的战略对策[J].石油科技论坛,2006.1:14-17.
[91] 徐飞,姜卓青.我国石油安全问题与对策[J].合作经济与科技,2006.1:10-11.
[92] 刘增洁,吴初国.我国石油安全供应面临的问题[J].国土资源情报,2005.11:51-55.
[93] 李凌峰,张斌,杜志敏.中国石油交全危机预警研究[J].石油天然气学报,2005.1:308-310.
[94] 张宏民.我国能源政策及战略设计—现代能源战略经济学理论及应用研究[D].中国石油大学(北京)博士论文,2002.5.
[95] 王砾.树立技术创新的社会观念是推动我国技术创新的社会基础[J].商场现代化,2006.5:31-33.
[96] 贾文瑞.21世纪中国能源、环境与石油工业发展[M].石油工业出版社,2002。
[97] 傅诚德.科学技术对石油工业的作用及发展对策[M].石油工业出版社,1999.
[98] 葛家理,申炼.系统协调论—系统学的认识论、方法论和“生命”学说[M].石油工业出版社,1997.10.
[99] 希罗卡诺夫,M.A斯列姆涅夫.现代科学的发展规律性与认识方法[M],复旦大学出版社,1982.
[100] 刘建虎.国际油价将持续高位震荡[J].中国石化,2006.4:60.
[101] 我国可再生能源配套优惠政策即将出台——BP携”新能源”拓展太阳能市场,石油商报2005年12月27日.
[102] 单洪青.世界主要跨国石油石化公司的发展之路,http://supersuny.bokee.com,7/7/2004.
[103] 严绪朝.石油公司应积极探索开发替代能源和新能源[J].中国石油企业,2005:14-16.
[104] 葛家理.现代油藏渗流力学原理[M].北京:石油工业出版社,2001.
[105] 赵福麟,张贵才,周洪涛.李宜坤.二次采油与三次采油的结合技术及其进展[J].石油学报,2001.5:38-42.
[106] 刘振武,方朝亮.21世纪初中国油气应用基础研究展望[M].石油工业出版社,2003.6.
[107] 刘振武,方朝亮.21世纪初中国油气关键技术研究展望[M].石油工业出版社,2003.6.
[108] 徐伟生,闫云贵,邢立国.大港油田三次采油地面工艺现状及发展方向[J].石油钻采工艺,2002(增):70-73.
[109] 薛爱信.孤岛油田三次采油现状及配套技术[J].油气地面工程,2003.6:3-4.
[110] 赖枫鹏.微生物采油技术发展概述[J].资源与产业,2006.2:61-63.
[111] 曾龙伟,郭洪岩,杨秀丽.物理法采油技术[M].石油工业出版社,2001.8.
[112] 耿正.基于数据挖掘的智能决策支持系统[J].鸡西大学学报,2006,6(4):65-67.
[113] Shi Yong, Human Casting&&A Fundamental Method to Overcome Computer Network Information Overload, 2000.
[114] 李勇,肖智,曹国华.数据挖掘技术在管理中的应用[J].重庆大学学报(社会科学版),2002.6:26-28.
[115] 王金明,田利娟.试论数据挖掘技术在企业管理中的应用[J].企业经济,2005.1:45-47.
[116] 戴稳胜,张阿兰.数据挖掘的方法、流程及应用[J].中国统计,2004.7:53-54.
[117] 邱均平.文献计量学[M].科学技术文献出版社,1988.
[118] 倪波.文献学概论[M].江苏教育出版社,1990.
[119] 吕志坚.综合集成研讨厅中的专家研讨与思维研究[D].中国科学院自动化研究所博士论文,2004.6.
[120] 张家才.综合集成研讨厅中支撑环境的设计与实现[D].中国科学院自动化研究所博士论文,2004.6.
[121] 崔霞,戴汝为,李耀东.群体智慧在综合集成研讨厅体系中的涌现[J].系统仿真学报,2003.1.
[122] 杨学英.层次分析法及模糊综合评判在工程评标中的应用[J].科技进步与对策,2002.4:132-134.
[123] 杨虹,邱祝强.改进层次分析法在配送中心选址中的应用[J].铁道运输与经济,2004.7:26-29.
[124] 王丹力,戴汝为.群体一致性及其在研讨厅中的应用[J].系统工程与电子技术,2001.7:33-37.
[125] 彭木红,孙绍荣,张文健.研讨厅中专家意见的可靠性研究[J].系统工程理论方法应用,2004.4:343-345
[126] Mohamed A A, Wiebe F A. Towards a process theory of group think. Small Group Research, 1996.27.
[127] Granstrom K. Stivne D. A bipolar model of group think. Small group reaearch, 1998.29.
[128] Schafer. Mark. Antecedents of group think. Journal of Conflict reaolution, 1996.3.
[129] Anders Pehrsson. Strategy competence: A key profitability driver. Strategic Change, Mar-Apr, 2000.
[130] C. K. Prahalad & Gary Hamel. The Core Competence of the Corporationm. Harvard Business Review, May-June, 1900.
[131] Leonard Barton. D. Core Capabilities and Core Rigidities:A Paradox in Managing New Product Development. Strategic Management Journal, vol. 13, P111-127,1992.
[132] 大庆油田有限责任公司.大庆油田开发技术座谈会报告集,2002.
[133] 大庆油田有限责任公司勘探开发研究院.立足精细挖潜 推进技术创新 努力实现“11599”工作目标,2004.1.
[134] 大庆油田有限责任公司勘探开发研究院.深化油藏认识 发展开发技术 为创建百年油田提供技术支撑,2004.12.
[135] 王玉普.我国特大石油企业持续发展理论与应用研究——大庆油田公司可持续发展战略研究(D),石油大学(北京)博士论文,2003.4.
[136] 王玉普.夯实发展基础 提升核心能力 全力推进百年油田伟大实践,2005.2.
[137] 王启民.大庆油田三次采油技术的实践与认识.大庆石油地质与开发,2001.2.
[138] 郭万奎,程杰成,廖广志.大庆油田三次采油技术研究现状及发展方向[J].大庆石油地质与开 发,2002.3:1-7.
[139] 程杰成.“十五”期间大庆油田三次采油技术的进步与下步攻关方向[J].大庆石油地质与开发,2006.1:18-21.
[140] 王德民.大庆油田“三元”“二元”“一元”驱油研究[J].大庆石油地质与开发,2003.3:1-10.
[141] 廖广志,牛金刚,邵振波,陈鹏.大庆油田工业化聚合物驱效果及主要做法[J].大庆石油地质与开发,2004.1:48-52.
[142] 黄学.技术预见在三次采油发展战略中的应用[J].大庆石油地质与开发,2006,25(4):88-91.
[143] 黄学,许关利,邵振波,孙刚.聚丙烯酰胺共混溶液的流变特性[J].大庆石油学院学报,2006,26(4):1-3