Productivity Evaluation Method of Horizontal Well Volume Fracturing in Tight Oil Reservoir
Abstract
Tight oil resources in north Songliao basin is rich and abundant, which is the most important energy sources foundation of stable and raising oil production in Daqing oil field. However, it is difficult to develop such oil resources by the regular ways for the poor reservoir property and thin reservoir thickness. Using the way of horizontal well by volume fracturing can increase contract area of well and the reservoir, improve reservoir flow performance and reach the high oil production, which has showed good results up till now. The accurate productivity evaluation of volume fracturing horizontal well is an important content of reservoir and production engineering field, which is also to develop solutions and decision-making basis. The current formula of horizontal well in low permeability reservoirs production did not consider the effect of seepage volume form fracturing, so it is poorly adapt to calculate the productivity of volume fracturing horizontal well. Based on the tight oil reservoir geological characteristics and seepage characteristics, equation are solved coupling with flow through fractures in the substrate, productivity prediction model is established and the innovation is based on considering horizontal well reservoir heterogeneity, fracturing scale and any artificial fracture distribution form, the results of which can provides a reliable theoretical basis for tight oil reservoir developed effectively.
Keywords
Full Text:
PDFReferences
[1] Lang, Z. X., Zhang, L. H., & Cheng, L. S. (1994). Fracturing horizontal well productivity research. Journal of Petroleum University, 18(2), 43-46.
[2] Jiang, T. X., & Shan, W. W. (2001). Vertical fractured well steady capacity calculation. Petroleum Exploration and Development, 28(2), 61-63.
[3] Wang, F., Liu, H. Q., & Lü, G. Z. (2014). Long slot of low permeability reservoir fracturing vertical wells steady productivity prediction model. Petroleum Geology and Recovery Efficiency, 21(1), 84-86.
[4] Huang, Y., Li, C. L., & Cheng, L. S. (2010). Vertical fracture wells of low permeability reservoir capacity evaluation methods. Petroleum Geology and Recovery Efficiency, (1), 99-101.
[5] Jiang, R. Z., Li, L. K., & Peng, Y. H. (2013). The new model based on low-speed nonlinear seepage vertically fractured well production capacity calculation. Petroleum Geology and Recovery Efficiency, (1), 92-95.
[6] Liu, X. P., Guo, C. Z., & Jiang, Z. X. (1999). Seepage flow in the horizontal wellbore coupling model. Journal of Petroleum University, 20(3), 82-87
[7] Fan, Z. F., Fang, H. C., & Niu, X. N. (1996). The research on steady-state solutions of horizontal well productivity formula in fractured reservoir. Petroleum Exploration and Development, 23(3), 52-63.
[8] Joshi, S. D. (1991). Horizontal well technology. Tulsa: PennWell Publish Company.
[9] Duda, J. R. (1991, March). Type curves for predicting production performance from horizontal wells in low permeability gas reservoirs. Paper presented at Low Permeability Reservoirs Symposium, Denver, Colorado.
[10] Cinco-Ley, H. (1981). Transient pressure analysis for fractured wells. Journal of Petroleum Technology, 33(9), 1749-1766.
[11] Gringarten, A. C., & Ramey, H. J. (1973). The use of source and green functions in solving unsteady-flow problems in reservoirs. Society of Petroleum Engineers Journal, 13(5), 285-296.
[12] Gringarten, A. C., & Ramey, H. J. (1974). Unsteady-state pressure distributions created by a well with a single horizontal fracture, partial penetration, or restricted entry. Society of Petroleum Engineers Journal, 14(4), 413-426.
[13] Guo, G., & Evans, R. D. (1993, October). Pressure-transient behavior and inflow performance of horizontal wells intersecting discrete fractures. Paper presented at SPE Annual Technical Conference and Exhibition, Houston, Texas.
[14] Ozkan, E., & Raghavan, R. (1988). Some new solutions to solve problems in well test analysis: Part 1-analytical considerations. SPE Formation Evaluation, 6(3), 359-368.
DOI: http://dx.doi.org/10.3968/7966
Refbacks
- There are currently no refbacks.
Copyright (c) 2015 Advances in Petroleum Exploration and Development
Reminder
We are currently accepting submissions via email only.
The registration and online submission functions have been disabled.
Please send your manuscripts to aped@cscanada.net,or aped@cscanada.org for consideration. We look forward to receiving your work.
We only use three mailboxes as follows to deal with issues about paper acceptance, payment and submission of electronic versions of our journals to databases:
caooc@hotmail.com; aped@cscanada.net; aped@cscanada.org
Articles published in Advances in Petroleum Exploration and Development are licensed under Creative Commons Attribution 4.0 (CC-BY).
ADVANCES IN PETROLEUM EXPLORATION AND DEVELOPMENT Editorial Office
Address:1055 Rue Lucien-L'Allier, Unit #772, Montreal, QC H3G 3C4, Canada.
Telephone: 1-514-558 6138
Website: Http://www.cscanada.net
Http://www.cscanada.org
E-mail:office@cscanada.net; office@cscanada.org
Copyright © 2010 Canadian Research & Development Centre of Sciences and Cultures