簡易檢索 / 詳目顯示
| 研究生: |
賴彥廷 Lai, Yen-Ting |
|---|---|
| 論文名稱: |
台灣海域某水驅型氣層生產歷史之模擬研究 Simulation Study of Production History of a Water-Drive Gas Reservoir in Offshore Taiwan |
| 指導教授: |
謝秉志
Hsieh, Bieng-Zih |
| 學位類別: |
碩士 Master |
| 系所名稱: |
工學院 - 資源工程學系 Department of Resources Engineering |
| 論文出版年: | 2016 |
| 畢業學年度: | 104 |
| 語文別: | 英文 |
| 論文頁數: | 92 |
| 中文關鍵詞: | 水驅 、數值模擬 、海域氣層 |
| 外文關鍵詞: | water-drive, numerical simulation, offshore gas reservoir |
| 相關次數: | 點閱:123 下載:1 |
| 分享至: |
| 查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
本研究的目的以數值模擬法研究台灣海域已生產之水驅型氣層之再生產評估,本研究以C氣層做為案例並且建立地質模型和數值模式,並對 C氣層C-W區塊進行歷史調諧。研究中主要進行: (1)地質資料、儲集層參數、流體成份和生產資料蒐集;(2) 生產井之天然氣成份PVT性質分析;(3) 歷史調諧。歷史調諧主要是透過控制地層及流體參數並且加入水侵模式而達到最佳之調諧效果。
歷史調諧後獲得一個可信賴數值模型,數值模擬得到其原始氣體埋藏量約有22.29億立方公尺天然氣和25%的採收率,根據剩餘天然氣分佈圖,本研究針對此水驅型氣層提出新的增產評估,預期C氣層可再額外生產約3.4億立方公尺天然氣,可增加的採收率為17%。
The purpose of this study is to evaluate the performance of a produced water-drive gas reservoir in offshore Taiwan by reservoir simulation. The geological and numerical models for the C gas field case study were built and the history matching on the C gas field C-W block was performed. The major steps in the case study were: (1) gathering the geology, geophysics, PVT experiment, and production data, (2) studying the PVT behavior of a nature gas sample from the production well, and (3) history matching. The history matching was done via trial and error by modifying specific reservoir properties, performing end point scaling and modeling the aquifer support in the system.
After the history matching, a reliable numerical model was constructed. The reservoir simulation estimated that the Original Gas in Place was about 2,229 MMSCM and the gas recovery was 25%. Based on the distribution of remaining in-site gas, we propose a new production project for optimizing production from this water drive gas reservoir. Given the designed operation, the C gas field can be produced more 340 MMSCM of gas and predicted extra recovery is about 17%.
References
Agarwal, R.G., Al-Hussainiy, R., Ramey, H.J., 1965. The Importance of Water Influx in Gas Reservoirs. Paper SPE 1244, presented at SPE Annual Fall Meeting held in Denver (3-6 October).
Arco, D. P. and Bassiouni, Z.; (1987), ‘The Technical and Economic Feasibility of Enhanced Gas Recovery in the Eugene Island Field by Use of Coproduction Technique’, Louisiana State University, Journal of Petroleum Technology’, May 1987, USA, Pp. 58-590.
Charles, S. R; Tracy, S. W. and Farrar, R. L; (1999), “Applied Reservoir Engineering, Vol. 1, OGCI Publications, Oil and Gas Consultants International, Inc. U.S.A. Pp. 5-77 to 5-22
Givens, J. W; (1968), ‘A Practical Two-Dimensional Model for Simulating Dry Gas Reservoir with Bottom Water Drive’, Continental Oil Co., Houston, Texas, SPE Symposium on Numerical Simulation of Reservoir Performance held in Dallas, Texas, April 22-23, 1968, Pp. 1229-1232.
Cohen, M. F.:”Recovery Optimization in a Bottom/Edge Water-drive Gas reservoir, Soehlingen Schneverdingen”, SPE 19068, SPE Gas Technology Symposium held in Dallas, Texas, 7-9 June 1989.
Computer Modelling Group, User’s Guide Winprop Phase Property Program, Calgary, Alberta, Canada, 2012.
Computer Modelling Group, User’s Guide GEM Advanced Compositional Reservoir Simulator, Calgary, Alberta, Canada, 2012.
Walt Dobbs et al.: “SPE 145070 Coupled Surface/Subsurface Simulation of an Offshore K2 Field”, SPE Reservoir Characterisation and Simulation Conference, 11 October 2011 (2011-10-11).
El-Ahmady, M.H., Wattenbarge, R.A., and Pham, T. T.:”Over-estimation of Original Gas In Place in Water-Drive Gas Reservoirs Due to a Misleading Linear p/z Plot”, paper 2001-77 presented at Canadian International Petroleum Conference 2001, Calgary, June 12-14, 2001.
Faizan Ali :”Importance of water Influx and waterflooding in Gas condensate reservoir” Master dissertation, Norwegian University of Science and Technology, 2014.
Fevang, Ø.:” Gas condensate flow behavior and sampling,” PhD dissertation, Norwegian University of Science and Technology, 1995.
Fetkovitch, M.J., “A Simplified Approach to Water Influx Calculations- Finite
Aquifer Systems,” Journal of Petroleum Technology, Vol. 23, p.8 4-828, 97 .
Firoozabadi, A.; Olsen, G. and Golf-Racht, V. T, (1987), ‘Residual Gas Saturation in Water-Drive Gas Reservoir’, SPE California Regional Meeting held in Ventura, California, April 8-10, 1987, USA, Pp. 1-4 (319-322)
Geffen, T.M., Parrish, D.R., Haynes, G.W. and Morse, R.A.: “ Efficiency of Gas Displacement From Porous Media by Liquid Flooding.” Trans., AIME (1952) 195, 29
Hoffman, B. T., Jef, K. C., Xian-Huan, W. & Sebastien, B. S. 2006. A Practical Data Integration Approach to History Matching: Application to a Deepwater Reservoir. SPE Journal 11 (4): pp. 464-479. 10.2118/95557-pa.
Hower, T. L. and Jones, R. E.: “Predicting recovery of gas reservoirs under Waterdrive Conditions”, SPE 22937, SPE 66th Annual Conference and Exhibition held in Dallas, TX, 6-9 October 1991.
Layne, M.A., Numbere, D. T. and Koederitz, L. F.:” Future Performance Prediction for Water Drive Gas Reservoirs,” paper SPE 26669 presented at the 1993 SPE Annual Technical Conference and Exhibition, Houston, 3-6 October.
Matthew, J. D., Hawes, R. I. and Lock, T. P,: (1988) “ Feasibility Studies of water flooding Gas Condensate Reservoir”, JPT, Pp. 1049-1056
Nghiem, L.X. , Fong, D. and Aziz, K., 1981. Compositional Modeling with an Equation of State, SPEJ, VOL. 21, BO. 6, pp. 687-698
Peng D.Y. and Robinson, D. B., 1976 A New Two-Constant Equation of State, Industrial and Engineering Chemistry Fundamentals, 1976, 15(1), pp. 59-64
Rogers, L. A.; (1984), ‘Test of Secondary Gas Recovery by Coproduction of Gas and Water form Mt. Selman Field, Texas’, SPE/DOE/GRI 12865, Unconventional Gas Recovery Symposium held in Pittsburgh, P. A., May 13-15, 1984, Pp. 331-335.
校內:2021-07-26公開校外:不公開