Challenges and Development Tendency of Engineering Technology in Oil and Gas Development in Sinopec
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摘要: 油气田开发工程技术的进步,为原油生产的稳定增长和天然气的快速发展提供了重要的支撑,但是开发对象日趋复杂化以及持续的低油价,需要开发工程技术创新发展,形成适应性更强的、成本更低的配套开发技术。总结了中国石化油气开发的趋势及工程技术面临的挑战,分析了高含水老油田、深层油气、非常规油气、深水油气对开发工程技术的需求,提出了开发工程技术的发展方向,并从工程技术创新、技术经济适应性、研发试验平台建设等方面提出加快工程技术发展的建议。这对推动油气开发工程技术发展,实现我国油气资源的高效开发、保障国家能源供应具有重要意义。Abstract: The progress of engineering technologies in oil and gas development has provided significant support for the stable growth of crude oil production and the fast development of natural gas exploitation.As the increase of complication of reserve targets and oil price drop, engineering technologies should be innovatively developed to meet the challenge with wider applicatability and lower engineering cost.In this paper, the trend of oil and gas development in Sinopec and related engineering technical challenges were reviewed.Then, the development tendency of engineering technologies was proposed.Finally, some suggestions to speed up the development of engineering techniques were put forward from the aspects of engineering technology innovation, technical and economic adaptability and R D test platform construction, which will promote the development of oil and gas development engineering technologies and realize efficient development of oil and gas resources to guarantee national energy supply.
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[5] 许昕,侯宇光.非常规油气勘探开发现状略述[J].长江大学学报(自科版),2015,12(26):12-14. XU Xin,HOU Yuguang.Review of current situation of unconventional oil and gas exploration and development[J].Journal of Yangtze University (Natural Science Edition),2015,12(26):12-14. [6] 郑春峰,赵忠义,郝晓君,等.高含水、高采出程度阶段油田剩余 油定量表征及其综合评价[J].石油天然气学报,2012,34(2):131-135. ZHENG Chunfeng,ZHAO Zhongyi,HAO XiaoJun,et al.Residual oil quantitative characterization and comprehensive evaluation at high water-cut and high recovery stage[J].Journal of Oil and Gas Technology,2012,34(2):131-135. [7] 李阳.中国石化致密油藏开发面临的机遇与挑战[J].石油钻探技术,2015,43(5):1-6. LI Yang.Opportunities and challenges for Sinopec to develop tight oil reservoirs[J].Petroleum Drilling Techniques,2015,43(5):1-6. [8] 宋泓钢.国内深井钻井提速技术难点分析及对策研究[J].化学工程与装,2015(2):109-111. SONG Honggang.Deep well drilling technology analysis and its technical solution in domestic[J] Chemical Engineering Equipment,2015(2):109-111. [9] BELGRAVE J D M,NZEKWU B I,CHHINA H S.SAGD optimization with air injection[J].SPE 106901,2007.
[10] OSKOUEI S J P,MOORE R G,MAINI B B,et al.Feasibility of in-situ combustion in the SAGD chamber[J].Journal of Canadian Petroleum Technology,2011,50(4):31-44.
[11] BOUSARD I S.Recovery of oil by a combination of low temperature oxidation and hot water or steam injection:US3976137[P].1976-08-24.
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