Reservoir Evaluation and Development ›› 2020, Vol. 10 ›› Issue (2): 65-70.doi: 10.13809/j.cnki.cn32-1825/te.2020.02.011
• Reservoir Development • Previous Articles Next Articles
LIU Lina,YIN Ting,ZHENG Xiaojie,MA Xinping,LIU Rui,XIE Shuang
Received:
2019-09-27
Online:
2020-04-26
Published:
2020-04-28
CLC Number:
LIU Lina,YIN Ting,ZHENG Xiaojie,MA Xinping,LIU Rui,XIE Shuang. A new method to ground production split of condensate gas cap reservoirs with strong bottom water in Tahe Oilfield[J].Reservoir Evaluation and Development, 2020, 10(2): 65-70.
Table 1
Ground production data of well-B by comprehensive splitting method"
年度 | ρo/ (g·cm-3) | ρc/ (g·cm-3) | ρm/ (g·cm-3) | GOR/ (m3·m-3 ) | 104 m3 | 104 m3 | 104 m3 | 104 m3 | 104 m3 | 单井生产 阶段划分 |
---|---|---|---|---|---|---|---|---|---|---|
2006 | 0.860 | 0.763 | 0.777 0 | 1791 | 1.78 | 0.19 | 33 | 1.59 | 3 152 | 凝析气—混合生产 |
2007 | 0.860 | 0.763 | 0.828 6 | 884 | 2.07 | 1.39 | 238 | 0.68 | 1 591 | 混合生产 |
2008 | 0.860 | 0.763 | 0.846 8 | 726 | 0.83 | 0.69 | 119 | 0.13 | 481 | 混合生产 |
2009 | 0.860 | 0.763 | 0.855 1 | 1 198 | 0.31 | 0.29 | 50 | 0.02 | 289 | 混合生产 |
2010 | 0.860 | 0.763 | 0.854 5 | 1 247 | 0.12 | 0.11 | 19 | 0.01 | 126 | 混合生产 |
2011 | 0.860 | 0.763 | 0.853 9 | 1 568 | 0.04 | 0.03 | 6 | 0.00 | 29 | 混合生产 |
2012 | 0.860 | 0.763 | 0.850 9 | 1 022 | 0.23 | 0.21 | 36 | 0.02 | 183 | 混合生产 |
2013 | 0.860 | 0.763 | 0.823 3 | 600 | 0.11 | 0.07 | 12 | 0.04 | 56 | 混合生产 |
2014 | 0.860 | 0.763 | 237 | 0.06 | 0.06 | 14 | 0.00 | 0 | 原油生产 | |
2015 | 0.860 | 0.763 | 227 | 0.31 | 0.31 | 70 | 0.00 | 0 | 原油生产 | |
2016 | 0.860 | 0.763 | 2 252 | 0.03 | 0.00 | 0 | 0.03 | 67 | 凝析气生产 | |
合计 | 5.88 | 3.36 | 598 | 2.53 | 5 974 |
Table 3
Comparison between block recovery calculated by single-well production stage integrated splitting method and that of Similar Reservoirs"
区块名称 | 采收率/% | 备注 | |||
---|---|---|---|---|---|
凝析气 | 凝析油 | 原油 | 溶解气 | ||
塔河油田T区块 | 29.75 | 22.96 | 12.28 | 12.05 | 先采气,衰竭开采,目前含水90 % |
板桥板中板二凝析气藏 | 47.90 | 31.90 | 12.84 | 先采气,衰竭开采采收率 | |
濮城西区沙二上凝析油气藏 | 51.20 | 16.00 | 先采油,地层压力为l0 MPa时 | ||
西塞门特油气田(美) | 69.70 | 13.40 | 先采气,衰竭开采采收率 | ||
卡拉达克Ⅶ凝析气藏(苏) | 95.00 | 42.50 | 10.00 | 先采气,最终采收率 | |
斯捷普诺夫凝析气田(苏) | 83.00 | 16.00 | 先采油,开发晚期 |
[1] | 张安刚, 范子菲, 宋珩 , 等. 计算凝析气顶油藏油气界面移动距离的新方法[J]. 油气地质与采收率, 2015,22(1):102-105. |
ZHANG A G, FAN Z F, SONG H , et al. A new computing method of moving range of the oil-gas contact in oil reservoir with condensate gas cap[J]. Petroleum Geology and Recovery Efficiency, 2015,22(1):102-105. | |
[2] | 刘维霞, 吴义志, 李文静 , 等. 断块油藏气顶-边水双向驱油藏筛选标准[J]. 特种油气藏, 2016,23(1):104-108. |
LIU W X, WU Y Z, LI W J , et al. Screening criteria of gas cap-edge water drive fault block oil reservoir[J]. Special Oil & Gas Reservoirs, 2016,23(1):104-108. | |
[3] | 曹海丽, 张祥忠, 陈礼 . 小油环大气顶油藏高效开发及稳产策略[J]. 特种油气藏, 2016,23(3):97-101. |
CAO H L, ZHANG X Z, CHEN L . Efficient development and production maintenance measures of reservoir with little oilring and large gas-cap[J]. Special Oil & Gas Reservoirs, 2016,23(3):97-101. | |
[4] | 房娜, 刘宗宾, 吕坐彬 , 等. 大气顶油藏气窜规律与全寿命开发策略[J]. 特种油气藏, 2018,25(3):117-121. |
FANG N, LIU Z B, LU Z B , et al. Gas channeling pattern and full-life development strategy for oil reservoir with large gas-cap[J]. Special Oil & Gas Reservoirs, 2018,25(3):117-121. | |
[5] | 刘佳, 程林松, 范子菲 , 等. 气顶油藏屏障注水数值模拟[J]. 成都理工大学学报(自然科学版), 2018,45(5):559-564. |
LIU J, CHENG L S, FAN Z F , et al. Study on numerical simulation of barrier waterflooding for gas cap reservoir[J]. Journal of Chengdu University of Technology(Science & Technology Edition), 2018,45(5):559-564. | |
[6] | 葛丽珍, 李傲, 孟智强 , 等. 气顶边水窄油环水平井生产压差调控实验研究[J]. 石油钻探技术, 2019,47(1):90-95. |
GE L Z, LI A, MENG Z Q , et al. Experimental study on the draw-down pressure control of horizontal wells with gas-cap/edge water narrow oil rims[J]. Petroleum Drilling Techniques, 2019,47(1):90-95. | |
[7] | 胡中琴, 肖宗伟 . 带油环凝析气藏衰竭式开发的动态特征[J]. 中国海上油气(地质), 1992,6(1):39-44. |
HU Z Q, XIAO Z W . Performance of gas condensate reservoirs with oil rim under depletion[J]. China Offshore Oil and Gas(Geology), 1992,6(1):39-44. | |
[8] | KOLBIKOV S V . Peculiarities of thin oil rim development[C]// paper SPE-160678-MS presented at the SPE Russian Oil and Gas Exploration and Production Technical Conference and Exhibition, 16-18 October 2012, Moscow, Russia. |
[9] | El GAZAR A L, ALKLIH M Y, SUMAIDAA S A B , et al. Field development and optimization plan for compartmentalized oil rim reservoir[C]// paper SPE-177659-MS presented at the Abu Dhabi International Petroleum Exhibition and Conference, 9-12 November 2015, Abu Dhabi, UAE. |
[10] | 童凯军, 赵春明, 张迎春 , 等. 大气顶窄油环油藏屏障注水开发技术适应性研究[J]. 天然气地球科学, 2011,22(3):566-570. |
TONG K J, ZHAO C M, ZHANG Y C , et a1. Adaptability and development suggestion of barrier water flooding for reservoir with big gas cap and thin oil-ring[J]. Natural Gas Geoscience, 2011,22(3):566-570. | |
[11] | 范子菲, 程林松, 宋珩 , 等. 气顶油藏油气同采条件下流体界面移动规律[J]. 石油勘探与开发, 2015,42(5):624-631. |
FAN Z F, CHENG L S, SONG H , et al. Fluid interface moving for the concurrent production of gas cap and oil rim of gas cap reservoirs[J]. Petroleum Exploration and Development, 2015,42(5):624-631. | |
[12] | 廉培庆, 李琳琳, 程林松 , 等. 气顶边水油藏剩余油分布模式及挖潜对策[J]. 油气地质与采收率, 2012,19(3):101-103. |
LIAN P Q, LI L L, CHENG L S , et al. The nodes of remaining oil and development strategies in gas cap and edge water reservoir[J]. Petroleum Geology and Recovery Efficiency, 2012,19(3):101-103. | |
[13] | 王月杰, 聂玲玲, 杨庆红 , 等. 气顶边水油藏水平井开发可行性分析及产能评价[J]. 油气井测试, 2013,22(6):8-13. |
WANG Y J, NIE L L, YANG Q H , et al. Analysis of horizontal well-development and productivity evaluation in gas cap & edge water drive reservoir[J]. Well Testing, 2013,22(6):8-13. | |
[14] | 窦松江, 冯小宁, 李炼民 . 尼日尔G油田气顶油气藏开发策略研究[J]. 非常规油气, 2015,2(5):34-37. |
DOU S J, FENG X N, LI L M . Development strategy for gas cap reservoirs in Niger G Oilfield[J]. Unconventional Oil & Gas, 2015,2(5):34-37. | |
[15] | 朱志强, 李云鹏, 葛丽珍 , 等. 气顶底水油藏水平井垂向位置确定模型及应用[J]. 石油钻探技术, 2016,44(5):104-108. |
ZHU Z Q, LI Y P, GE L Z , et al. The model and applicationin determining the vertical position of horizontal well in gas cap and bottom water reservoirs[J]. Petroleum Driliing Techniques, 2016,44(5):104-108. | |
[16] | 葛丽珍, 孟智强, 朱志强 , 等. 气顶边水油藏初期合理采油速度三维物理模拟实验[J]. 中国海上油气, 2019,31(6):99-105. |
GE L Z, MENG Z Q, ZHU Z Q , et al. Three-dimensional physical simulation experiment of reasonable initial oil recovery rate for the gas cap/edge water reservoirs[J]. China Off-Shore Oil and Gas, 2019,31(6):99-105. | |
[17] | 赵伦, 赵晓亮, 宋珩 , 等. 凝析气顶油藏气顶气窜研究[J]. 油气地质与采收率, 2010,17(4):77-79. |
ZHAO L, ZHAO X L, SONG H , et al. Gas breakthrough research of condensate gas-cap reservoir-case of Zanarol reservoir[J]. Petroleum Geology and Recovery Efficiency, 2010,17(4):77-79. | |
[18] | 余元洲, 李宝荣, 杨广荣 , 等. 凝析气顶油藏油气产量的计算方法探讨[J]. 石油勘探与开发, 2001,28(1):60-62. |
YU Y Z, LI B R, YANG G R , et al. An approach to the calculation of hydro-carbon output of condensate gas cap reservoirs[J]. Petroleum Exploration and Development, 2001,28(1):60-62. | |
[19] | 傅英, 王惠芝, 王书彬 , 等. 凝析气藏黑油产量劈分方法[J]. 石油地质与工程, 2012,26(4):65-67. |
FU Y, WANG H Z, WANG S B , et al. Production split method of heavy oil in condensate gas reservoir[J]. Petroleum Geology and Engineering, 2012,26(4):65-67. | |
[20] | 余华杰 . 海上高含CO2高含凝析油气顶油藏提高采收率研究[J]. 油气井测试, 2016,25(2):10-17. |
YU H J . Research on enhancing oil recovery for gas cap reservoir with high CO2 and condensate oil & gas on the sea[J]. Well Testing, 2016,25(2):10-17. |
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