塔河缝洞型油藏注氮气工艺参数优化研究

2015年 22卷 第04期
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Parameter optimization of N2 injection technology in fractured-vuggy
reservoirs of Tahe Oilfield
王建海1 李娣1 曾文广1 马清杰1 葛际江2 管润红3
中国石化西北油田分公司石油工程技术研究院,新疆 乌鲁木齐 830011 中国石油大学(华东)石油工程学院,山东 青岛 266580 中国石化中原油田分公司采油三厂,山东 莘县 252429
Research Institute of Engineering Technology, Northwest Oilfield Company, SINOPEC, Urumqi 830011, China School of Petroleum Engineering, China University of Petroleum, Qingdao 266580, China No.3 Oil Production Plant, Zhongyuan Oilfield Company, SINOPEC, Shenxian 252429, China
塔河油田碳酸盐岩缝洞型油藏经过历年多轮次注水替油,油水界面不断抬升、注水失效井逐渐增多。针对构造顶部“洞顶油”难以动用的问题,塔河油田形成了以气水混注为主导的注氮气提高采收率技术。为达到提高注气效果的目的,通过理论研究和现场试验总结对注气量、注气速度、焖井时间、开井工作制度等工艺参数进行优化。注气量设计以注气井剩余油估算和注气补能为依据,采用油藏工程方法计算;注气速度考虑“气液滑脱”影响,以大于6×104 m3/d为宜;焖井时间不宜超过20 d;工作制度优化主要采用嘴流公式和多项管流公式进行油嘴设计。截至2013年底,塔河缝洞型油藏累计注气施工102口井/127井次,有效率87.5%,累计增油97 040 t,效果显著。
After multiple rounds of water injection in the fractured-vuggy carbonate reservoirs of Tahe Oilfield over the past years, the oil-water interface of oil wells is continuously rising and the effect on injection wells is becoming less and less. Considering the difficulty to recover the residual oil on top of the fractured-vuggy reservoirs, so N2-water injection technology is formed in Tahe Oilfield. In order to improve the effect, based on theoretical studies and field test summary, we design and optimize the N2-water injection volume, injection rate, shut-in time and work system. Volume injected should be based on residual oil and energy supplement size by reservoir engineering, considering the slippage of gas and liquid, the injection volume should be greater than 6×104 m3/d, the shut-in time should not exceed 20 days, the work system design includes applying the equations of choke flow and pipe flow. Until the end of 2013, the N2-water injection has been applied in 102 wells for 127 well-times, the efficiency is 87.5% and the oil increment is 97,040 tons.
缝洞型油藏; 注氮气; 注气参数; 优化设计; 塔河油田;
fractured-vuggy reservoirs; N2 injection; injection parameters; optimization design; Tahe Oilfield;
10.6056/dkyqt201504030