1 |
王树涛.强底水油藏水驱倍数定量表征及大幅提液研究[J].新疆石油天然气,2020,16(2):59⁃62.
|
|
Wang S T.Quantitative characterization and liquid extraction for strong bottom water reservoirs[J].Xinjiang Oil & Gas,2020,16(2):59⁃62.
|
2 |
王树涛,冯海潮,郑华,等.稠油油田高含水期产液结构智能化调整研究[J].新疆石油天然气,2019,15(4):48⁃51.
|
|
Wang S T,Feng H C,Zheng H,et al.Study on intelligent adjustment of liquid production structure in high oil content period of heavy oil oilfield[J].Xinjiang Oil & Gas,2019,15(4):48⁃51.
|
3 |
刘晨,张金庆,周文胜,等.海上高含水油田群液量优化模型的建立及应用[J].中国海上油气,2016,28(6):46⁃52.
|
|
Liu C,Zhang J Q,Zhou W S,et al.Modeling of liquid production optimization in high water cut offshore oilfield group and its application[J].China Offshore Oil and Gas,2016,28(6):46⁃52.
|
4 |
黄军立,李锋,闫正和,等.海相砂岩稠油油藏产液结构优化研究[J].长江大学学报(自科版),2017,14(15):69⁃72.
|
|
Huang J L,Li F,Yan Z H,et al.The optimization of fluid production structure in heavy⁃oil reservoir of marine sandstone[J].Journal of Yangtze University(Natural Science Edition),2017,14(15):69⁃72.
|
5 |
杨杰,董朝霞,向启贵,等.二价阳离子在低盐水改变砂岩润湿性中的作用[J].东北石油大学学报,2018,42(5):115⁃124.
|
|
Yang J,Dong Z X,Xiang Q G,et al.Effect of bivalent cation on wettability alteration of sandstone by low saline water[J].Journal of Northeast Petroleum University,2018,42(5):115⁃124.
|
6 |
朱迎辉,陈维华,代玲,等.南海东部油田强底水油藏水平井开采特征及开采对策研究[J].石油地质与工程,2016,30(5):75⁃77.
|
|
Zhu Y H,Chen W H,Dai L,et al.Producing characteristics and producing strategy of horizontal wells in strong bottom water reservoir[J].Petroleum Geology and Engineering,2016,30(5):75⁃77.
|
7 |
罗宪波,李金宜,何逸凡,等.海上疏松砂岩油藏水驱油效率影响因素研究及应用——以NNX油田为例[J].石油地质与工程,2021,35(1):61⁃65.
|
|
Luo X B,Li J Y,He Y F,et al.Influencing factors of water flooding efficiency in offshore unconsolidated sandstone reservoir and its application:By taking NNX oilfield as an exemple[J].Petroleum Geology and Engineering,2021,35(1):61⁃65.
|
8 |
张伟,曹仁义,罗东红,等.南海珠江口盆地海相砂岩油藏高倍数水驱驱替特征[J].油气地质与采收率,2018,25(2):64⁃71.
|
|
Zhang W,Cao R Y,Luo D H,et al.Displacement characteristics of high⁃multiple water drive in marine sandstone reservoirs in the Pearl River Mouth Basin,South China Sea[J].Petroleum Geology and Recovery Efficiency,2018,25(2):64⁃71.
|
9 |
鲁瑞彬,胡琳,刘双琪,等.水驱油高倍驱替实验驱油效率计算新方法[J].断块油气田,2019,26(5):601⁃604.
|
|
Lu R B,Hu L,Liu S Q,et al.A new method for calculating oil displacement efficiency of high water flooding displacement experiment[J].Fault⁃Block Oil and Gas Field,2019,26(5):601⁃604.
|
10 |
纪淑红,田昌炳,石成方,等.高含水阶段重新认识水驱油效率[J].石油勘探与开发,2012,39(3):338⁃345.
|
|
Ji S H,Tian C B,Shi C F,et al.New understanding on water⁃oil displacement efficiency in a high water⁃cut stage[J].Petroleum Exploration and Development,2012,39(3):338⁃345.
|
11 |
赵明月.强边底水油藏高倍数水驱的数值模拟方法实现及应用[D].北京:中国石油大学(北京),2016.
|
12 |
庞振宇,李艳,王蓓蕾,等.特低渗储层驱油效率影响因素分析[J].非常规油气,2017,4(4):76⁃81.
|
|
Pang Z Y,Li Y,Wang B L,et al.Analysis of influence factors of oil displacement efficiency in ultra⁃low permeability reservoir[J].Unconventional Oil & Gas,2017,4(4):76⁃81.
|
13 |
于洪敏,王友启,聂俊,等.高注水倍数相对渗透率曲线校正方法研究及应用[J].石油钻探技术,2018,46(4):104⁃108.
|
|
Yu H M,Wang Y Q,Nie J,et al.Study and application of a correction method for the relative permeability curve of a high water injection multiple[J].Petroleum Drilling Techniques,2018,46(4):104⁃108.
|
14 |
李石权,范莉红,邓彩云,等.特高含水油藏开发后期剩余油精准挖潜技术[J].非常规油气,2019,6(1):62⁃68.
|
|
Li S Q,Fan L H,Deng C Y,et al.Precise drilling technology for residual oil in the later stage of development of extra⁃high water⁃cut Reservoir[J].Unconventional Oil & Gas,2019,6(1):62⁃68.
|
15 |
凌浩川,周海燕,石洪福,等.不同含水阶段合理产液量预测的一种新方法[J].油气藏评价与开发,2019,9(1):34⁃37.
|
|
Ling H C,Zhou H Y,Shi H F,et al.A new method of liquid production rate prediction with different water cut[J].Reservoir Evaluation and Development,2019,9(1):34⁃37.
|
16 |
杨敏,李小波,谭涛,等.古暗河油藏剩余油分布规律及挖潜对策研究——以塔河油田TK440井区为例[J].油气藏评价与开发,2020,10(2):43⁃48.
|
|
Yang M,Li X B,Tan T,et al.Remaining oil distribution and potential tapping measures for palaeo⁃subterranean river reservoirs:A case study of TK440 well area in Tahe oilfield[J].Reservoir Evaluation and Development,2020,10(2):43⁃48.
|
17 |
雷霄,张乔良,罗吉会,等.涠西南油田群复杂断块油藏水驱剩余油精细表征技术及其现场应用[J].中国海上油气,2015,27(4):80⁃85.
|
|
Lei X,Zhang Q L,Luo J H,et al.Fine characterization technique of remaining oil after water flooding for complex fault block reservoirs in Weizhou oilfields and its application[J].China Offshore Oil and Gas,2015,27(4):80⁃85.
|
18 |
陈存良,王相,刘学,等.基于最大净现值的水驱多层油藏均衡驱替方法[J].特种油气藏,2019,26(1):122⁃125.
|
|
Chen C L,Wang X,Liu X,et al.Isostatic displacement of waterflooding multi⁃layer reservoir based on maximum net present value[J].Special Oil & Gas Reservoirs,2019,26(1):122⁃125.
|
19 |
姜瑞忠,乔欣,滕文超,等.储层物性时变对油藏水驱开发的影响[J].断块油气田,2016,23(6):768⁃771.
|
|
Jiang R Z,Qiao X,Teng W C,et al.Impact of physical properties time variation on waterflooding reservoir development[J].Fault⁃Block Oil and Gas Field,2016,23(6):768⁃771.
|
20 |
赵晓东,杨少春,钟思瑛,等.注水开发油田粘土矿物变化及其对剩余油形成影响[J].矿物学报,2014,34(4):591⁃598.
|
|
Zhao X D,Yang S C,Zhong S Y,et al.Distribution of clay minerals and their effect on the formation of remaining oil in a water injection oilfield:A case study of the Zhenwu oilfield in the Northern Jiangsu basin[J].Acta Mineralogica Sinica,2014,34(4):591⁃598.
|