大庆萨南油田特高含水期水驱注采结构优化调整方法Optimizing and adjusting methods of the waterflooding injection-production structure at extra-high watercut stage for Daqing Sanan Oilfield
梁文福
LIANG Wenfu
摘要(Abstract):
大庆萨南油田进入特高含水期以来,其油层典型多层非均质和较大渗透率级差导致的不同井网、油层动用不均衡等开发矛盾进一步加剧,严重影响开发效果。根据油藏工程基本原理,在研究分类井网含水率上升规律的基础上,以全区含水率最低、采收率最高为优化目标,建立了分类井网产液量分配比例优化数学模型。根据数学模型计算结果,得出分类井网优化注水采液结构调整原则,以此为理论依据,结合矿场实际,设计了萨南油田X区块分类井网注水产液结构调整方案,预测了各方案结构调整效果。矿场实践结果表明:方案实施后该区块取得较好的增油降水效果,调整前后井区日增油量14 t,含水率下降0.04百分点,减缓区块自然递减率1.4百分点。研究成果为整个油田全面实施注水产液结构调整举措提供了重要的理论和实践依据。
Since Daqing Sanan Oilfield entered extra-high watercut stage, the development contradictions such as different well patterns, uneven reservoir development and so on are further aggravated, which caused by the typical multilayer heterogeneity and large permeability differential of the oil reservoir, has severely affected the development effects. On the basis of the fundamental principle of the reservoir engineering and the increasing law of the water cut for the classified well pattern, the optimized mathematical model of the production liquid distribution proportion in the classified well pattern was established to realize the lowest watercut and the highest recovery in the whole area. According to the calculated results of the mathematical model, the principles of optimizing the structural adjustments of the water injection and fluid production in the classified well pattern are established. On the basis of this theory and combined with the actual field situation, the adjusting schemes of the water injection and liquid production structures for the classified well pattern in Block X of Sanan Oilfield were designed and the effects of the structural adjustments of each scheme were predicted. The results of the field practice show that this block has achieved much better results of increasing the oil production and decreasing the water cut after this program was implemented, which the average daily oil production increases by 14 tons, the water cut decreases by 0.04 percentage, and the natural declining rate retards by 1.4 percentage. The research results provide the important theoretical and practical evidances for the whole oilfield to carry out the major measures of the water injection and liquid production structural adjustments in an all-round way.
关键词(KeyWords):
特高含水期;分类井网;结构调整;储量比例;产液比例;采收率;大庆萨南油田
extra-high watercut period;classified well pattern;structural adjustment;reserve proportion;liquid production proportion;recovery factor;Daqing Sanan Oilfield
基金项目(Foundation): 国家科技重大专项“高含水油田提高采收率技术”(2011ZX05010)
作者(Author):
梁文福
LIANG Wenfu
DOI: 10.19597/j.issn.1000-3754.201904023
参考文献(References):
- [1]冈秦麟.高含水期油田改善水驱效果新技术(下)[M].北京:石油工业出版社,1999.GANG Qinlin.New technology for improving water flooding effect at high watercut stage(Ⅱ)[M].Beijing:Petroleum Industry Press,1999.
- [2]崔文富,赵红兵,吴伟,等.胜陀油田特高含水期油藏矢量层系井网产液结构调整研究[J].石油天然气学报,2012,30(6):127-131.CUI Wenfu,ZHAO Hongbing,WU Wei,et al.Well-pattern regulation in liquid producing structure of vector stratum series at extra-high water-cut stage in Shengtuo Oilfield [J].Journal of Oil and Gas Technology,2012,30(6):127-131.
- [3]岳登台.综述老油田改善开发效果及提高采收率技术[J].石油学报,1998,19(3):46-51.YUE Dengtai.Summary on improving the effect of developing maturing oilfield and IOR techniques[J].Acta Petrolei Sinica,1998,19(3):46-51.
- [4]李丽丽,宋考平,高丽,等.特高含水期油田水驱规律特征研究[J].石油钻探技术,2009,37(3):91-94.LI Lili,SONG Kaoping,GAO Li,et al.Water flooding behavior of high water-cut oilfield[J].Petroleum Drilling Techniques,2009,37(3):91-94.
- [5]田晓东,吴晓慧,冮明立,等.水驱油田基于液量的分结构开发指标预测方法[J].大庆石油地质与开发,2002,21(3):35-37.TIAN Xiaodong,WU Xiaohui,GANG Mingli,et al.Development index prediction by substructures based on liquid volume in waterflooding oilfield[J].Petroleum Geology & Oilfield Development in Daqing,2002,21(3):35-37.
- [6]聂延波,吴晓慧,乔霞,等.丁型水驱特征曲线在东河砂岩油藏开发指标预测中的应用[J].新疆石油地质,2015,36(2):195-198.NIE Yanbo,WU Xiaohui,QIAO Xia,et al.Application of Type-D water drive curve to development index forecast in Donghe sandstone reservoir in Hadeson Oilfield,Tarim Basin,[J].Xinjiang Petroleum Geology,2015,36(2):195-198.
- [7]田晓东,邵宪志,王天智,等.油田开发指标结构分析方法[J].大庆石油地质与开发,2007,26(3):47-50.TIAN Xiaodong,SHAO Xianzhi,WANG Tianzhi,et al.Analysis method for index and and structure of oilfield development [J].Petroleum Geology & Oilfield Development in Daqing,2007,26(3):47-50.
- [8]威丝曼D A,蔡特金 R.非线性最优化导论问题求解[M].马正午,王佩玲,译.北京:中国展望出版社,1986.WEISMAN D A,ZETKIN R.Solution of nonlinear optimization introduction problem[M].MA Zhengwu,WANG Peiling,Trans.Beijing:China Prospect Publishing House,1986.
- [9] 王者琴,吴晓慧,张永梅,等.水驱曲线和相对渗透率曲线联用计算分类井地质储量[J].大庆石油地质与开发,2007,26(6):61-63.WANG Zheqin,WU Xiaohui,ZHANG Yongmei,et al.Combination Application of waterflooding curve and relative permeability curve to calculate the geologic reservrs of different typed wells [J].Petroleum Geology & Oilfield Development in Daqing,2007,26(6):61-63.
- [10]周凤军,葛丽珍,童凯军,等.利用水驱曲线计算水驱储量的方法研究[J].石油地质与工程,2016,30(2):68-71.ZHOU Fengjun,GE Lizhen,TONG Kaijun,et al.Research on water flooding reserves calculation method by using water drive curve[J].Petroleum Geology and Engineering,2016,30(2):68-71.
- [11] 马奎前,孙召勃,贾晓飞,等.对水驱曲线中童氏“7.5B”公式再认识和改进[J].特种油气藏,2018,25(2):107-110.MA Quiqian,SUN Zhaobo,JIA Xiaofei,et al.Recognition and improvement of Tong’s“7.5B”in waterflooding curve[J].Special Oil & Gas Reservoirs,2018,25(2):107-110.
- [12]袁庆峰,庞彦明,杜庆龙,等.砂岩油田特高含水期开发规律[J].大庆石油地质与开发,2017,36(3):49-55.YUAN Qingfeng,PANG Yanming,DU Qinglong,et al.Development laws of the sandstone oilfield at extra-high watercut stage[J].Petroleum Geology & Oilfield Development in Daqing,2017,36(3):49-55.
- [13]计秉玉.国内外油田提高采收率技术进展与展望[J].石油与天然气地质,2012,33(1):111-117.JI Bingyu.Progress and prospects of enhanced oil recovery technologies at home and abroad[J].Oil & Gas Geology,2012,33(1):111-117.
- [14]董兴旺,燕维淼,李远刚,等.克拉玛依油田已二次开发油藏注采政策界限研究[J].新疆石油天然气,2014,10(2):40-45.DONG Xingwang,YAN Weimiao,LI Yuangang,et al.The injection-production policy research of the reservoir of Karamay Oilfield after the second development[J].Xinjiang Oil & Gas,2014,10(2):40-45.
- [15]袁士义,王强.中国油田开发主体技术新进展与展望[J].石油勘探与开发,2018,45(4):657-668.YUAN Shiyi,WANG Qiang.New progress and prospect of oilfields development technologies in China[J].Petroleum Exploration and Development,2018,45 (4):657-668.
- [16]周焱斌,许亚南,杨磊,等.高含水期油田的注采关系调整和挖潜开采研究[J].天然气与石油,2017,35(6):59-65.ZHOU Yanbin,XU Yanan,YANG Lei,et al.Research on injection-production relationship adjustment and further development in high watercut oilfield[J].Natural Gas and Oil,2017,35 (6):59-65.
- [17]王继强,岳圣杰,宋瑞文,等.特高含水期油田水驱特征曲线优化研究[J].特种油气藏,2017,24(5):97-101.WANG Jiqiang,YUE Shengjie,SONG Ruiwen,et al.Optimization of characteristic curves for water flooding operations in development of oilfields in stages with extremely high water cut[J].Special Oil & Gas Reservoirs,2017,24 (5):97-101.
- [18]韩大匡.关于高含水油田二次开发理念、对策和技术路线的探讨[J].石油勘探与开发,2010,37(5):583-591.HAN Dakuang.Discussions on concepts,countermeasures and technical routes for the redevelopment of high water-cut oilfields[J].Petroleum Exploration and Development,2010,37 (5):583-591.
- [19]郭军辉,朱丽红,曾雪梅,等.喇萨杏油田特高含水期调整潜力评价方法研究[J].长江大学学报(自然科学版),2016,13(8):58-63.GUO Junhui,ZHU Lihong,ZENG Xuemei,et al.Method for evaluating potentiality of reservoir adjustment in Lasaxing Oilfield during extra-high water-cut period[J].Journal of Yangtze University(Natural Science Edition),2016,13 (8):58-63.
- [20]王凤兰,石成方,田晓东,等.大庆油田“十一五”期间油田开发主要技术对策研究[J].大庆石油地质与开发,2007,26(2):62-66.WANG Fenglan,SHI Chengfang,TIAN Xiaodong,et al.Study on main technical strategy of oilfield development during the eleventh five-year plan in Daqing Oilfield[J].Petroleum Geology & Oilfield Development in Daqing,2007,26(2):62-66.