摘要: |
LD5-2油田经过多年开发,地层非均质性逐渐增强,亟待采取强化液流转向措施来扩大波及体积,改善水驱开发效果。为了适应油田开发需要,以油藏工程和物理化学理论为指导,以仪器检测和物理模拟方法为技术手段,以LD5-2油藏地质和流体性质为实验平台,开展了多轮次调驱效果实验研究。结果 表明,在三种水配制Cr3+聚合物凝胶中,除垢水凝胶黏度较大,液流转向能力较强,调驱增油效果较好;随聚合物浓度增加,Cr3+聚合物凝胶黏度增大,液流转向能力增强,采收率增幅增加;在Cr3+聚合物凝胶段塞尺寸相同条件下,采用多个凝胶小段塞与水交替注入方式可以减少驱油剂用量,获得了较好的驱油效果。 |
关键词: LD5-2油田 多轮次调驱 Cr3+凝胶 调驱效果 物理模拟 机理分析 |
DOI:10.3969/j.issn.1007-3426.2015.04.018 |
分类号:TE357.46 |
基金项目:“十二·五”国家油气科技重大专项子课题“海上稠油保压热采技术示范”(2011ZX05057-005-003)。 |
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Experimental study of parameters optimization of rotational profile control operations in Bohai Oilfield: An example of A22 Well in LD5-2 Oilfield |
Zhang Yunbao1, Xue Baoqing1, Lu Xiangguo2
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(1. Tianjin Branch Company,CNOOC, Tianjin 300452, China;2.Key Laboratory of Enhanced Oil Recovery of Ministry Education, Northeast Petroleum University, Daqing 163318, China)
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Abstract: |
After years of development, formation heterogeneity has been strengthened gradually in LD5-2 Oilfield, which needs to adopt measure of reinforced fluid flow to enlarge sweep volume and improve water flooding development effect. In order to meet the needs of oilfield development technology, guided by the theory of reservoir engineering and physical chemistry, using techniques of instrument detection and physical simulation method, with LD5-2 reservoir geology and fluid properties as experiment platform, experimental study of rotational profile control operations was carried out. Results show that among the Cr3+ polymer gels prepared with three kinds of water, the viscosity of descaling water gel is bigger, the ability of fluid flow is stronger, and the oil displacement effect is better. When the polymer concentration increases, the viscosity of Cr3+ polymer gel also increases, and the ability of fluid flow strengthens, and the recovery factor increases. Under the condition of the same slug size of Cr3+ polymer gel, the way of multiple small gel slug and water alternating injection can reduce the dosage of oil displacement agent and get better oil displacement effect. |
Key words: LD5-2 oil field displacement rounds Cr3+ polymer gel polymer displacement effect physical simulation mechanism analysis |