Changyuan Periphery Oilfield Economic Evaluation Method of Waterflood Potential Exploitation Measures
Abstract
Changyuan periphery oilfield stable form of 5.2 million production requires fine waterflood to reduce the amplitude of production decline and relieve pressure. However, the effiency of Potential Exploitation Measures were uneven, affecting oil production and economic benefits. So there need to economic evaluation for measures and make measures adjustment. Assessed two different blocks’ economic through evaluated single oil and water well measures and the combined effect of blocks measures. Single well economic evaluation of oil and water wells measures include: measures validity, income, the incremental input-output ratio, payback period and efficiency 5 indicators. The combined effect of blocks measures evaluate by index P. In Changyuan periphery five demonstration area as an example, analysised of the best and worst economic effect of each blocks, and obtain a comprehensive evaluation results of the demonstration area. The evaluation results were consistent with actual situation, it should be widely applied.
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[1] Zhao, H. P. (2003). Well measures of economic evaluation methods and procedures. Petroleum Knowledge, (5), 20-25.
[2] Liu, Q. R., & Zheng, X. H. (2003). Improve economic efficiency in high water cut of oil well fracturing method. Petroleum Geology & Oilfield Development in Daqing, 4, 40-42+77.
[3] Yue, L. (2000). The economic evaluation method of recoverable reserves and stimulation measures in high water-cut maturing field. ACTA 2000, 21(5), 39-44.
[4] Yang, X. Y., & Zhang, G. J. (2006). Economic evaluation and decision method of oilfield development adjusting project. Petroleum Exploration and Development, 33(2), 246-249.
[5] Huang, X. N., Bao, S. J., & Fu, Z. H. (2000). Economic evaluation of petroleum exploration. Petroleum Exploration and Development, 27(3), 9-13.
[6] Zu, L. (2012). Changyuan peripheral oilfield fine potential tapping measures for economic evaluation of the demonstration area. Science & Technology Information, (25), 64-65.
[7] Liu, G. Q., Zhao, A. W., & Zhao, L. (2001). Multilayer fluvial sandstone reservoir description of remaining oil and tapping the potential of technology. Petroleum Geology & Oilfield Development in Daqing, 5, 34-37+74.
[8] Kang, H. Q., Zhou, L. W., & Li, Y. (2006). Application of multi-disciplinary research to optimize reservoir waterflood adjustment programs. Petroleum Geology & Oilfield Development in Daqing, 4, 32-34+121.
[9] Xie, Y. Y. (2005). Measures in the establishment and application of evaluation methods wells. Petroleum Geology & Oilfield Development in Daqing, 4, 33-34+5.
[10] Wang, Y. Z., Zhang, Z. J., & Cao, B. L. (2002). Fine Chemicals technical adjustments profile potential application in Oilfield. Petroleum Geology & Oilfield Development in Daqing, 1, 43-45+83.
DOI: http://dx.doi.org/10.3968/7917
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