[1] |
LI Zhuoyi, FERNANDES P, ZHU D. Understanding the roles of inflow-control devices in optimizing horizontal-well performance[J]. SPE Drilling & Completion, 2011, 26(3):376-385.
|
[2] |
PETERSON E R, CORONADO M P, GARCIA L, et al. Well completion applications for the latest-generation low-viscosity-sensitive passive inflow-control device[R]. SPE 128481-MS, 2010.
|
[3] |
郝婧, 张厚和, 李春荣, 等. 渤海海域油气勘探历程与启示[J]. 新疆石油地质, 2021, 42(3):328-336.
|
|
HAO Jing, ZHANG Houhe, LI Chunrong, et al. Petroleum exploration history and enlightenment in Bohai sea[J]. Xinjiang Petroleum Geology, 2021, 42(3):328-336.
|
[4] |
戴家权, 王利宁, 向征艰. 关于中国长期能源战略制定的几点思考[J]. 国际石油经济, 2019, 27(12):10-14.
|
|
DAI Jiaquan, WANG Lining, XIANG Zhengjian. Insights on China’s long-term energy strategy formulation[J]. International Petroleum Economics, 2019, 27(12):10-14.
|
[5] |
IRANI M, BASHTANI F, KANTZAS A. Control of gas cresting/coning in horizontal wells with tubing-deployed inflow control devices[J]. Fuel, 2021, 293(5):120 328.
|
[6] |
李凡异, 张厚和, 李春荣, 等. 北部湾盆地海域油气勘探历程与启示[J]. 新疆石油地质, 2021, 42(3):337-345.
|
|
LI Fanyi, ZHANG Houhe, LI Chunrong, et al. Offshore petroleum exploration history and enlightenment in Beibu Gulf basin[J]. Xinjiang Petroleum Geology, 2021, 42(3):337-345.
|
[7] |
GARCIA L, CORONADO M P, RUSSELL R D, et al. The first passive inflow control device that maximizes productivity during every phase of a well’s life[R]. IPTC 13863-MS, 2010.
|
[8] |
李中, 支继强, 郭永宾, 等. 深海底水气藏控水工艺技术数值模拟研究[J]. 当代化工, 2020, 49(2):484-488.
|
|
LI Zhong, ZHI Jiqiang, GUO Yongbin, et al. Numerical simulation of water control technology for deep sea bottom water gas reservoirs[J]. Contemporary Chemical Industry, 2020, 49(2):484-488.
|
[9] |
李占东, 赵佳彬, 李中, 等. 高温高压深水气藏控水工艺研究[J]. 中国造船, 2019, 60(4):229-236.
|
|
LI Zhandong, ZHAO Jiabin, LI Zhong, et al. Study on water control technology in deep-water gas reservoir with high temperature and high pressure[J]. Shipbuilding of China, 2019, 60(4):229-236.
|
[10] |
文敏, 幸雪松, 邱浩, 等. 潜山裂缝气藏分段控水实验研究:以惠州26-6凝析气田为例[J]. 石油化工高等学校学报, 2021, 34(6):50-56.
|
|
WEN Min, XING Xuesong, QIU Hao, et al. Experimental study on segmented water control in buried hill crack gas reservoir:a case study of Huizhou 26-6 condensate gas field[J]. Journal of Petrochemical Universities, 2021, 34(6):50-56.
|
[11] |
崔小江, 李海涛, 李三喜, 等. 水平井找水-控水一体化智能完井技术及其应用[J]. 中国海上油气, 2021, 33(5):158-164.
|
|
CUI Xiaojiang, LI Haitao, LI Sanxi, et al. Integrated intelligent well completion technology of water detection and water control in horizontal well and its application[J]. China Offshore Oil and Gas, 2021, 33(5):158-164.
|
[12] |
刘卓, 孙厚台, 罗明良, 等. 低渗气井化学控水采气技术研究进展[J]. 应用化工, 2012, 41(12):2142-2 146.
|
|
LIU Zhuo, SUN Houtai, LUO Mingliang, et al. Research progress on water control technology with chemical methods in low-permeability gas wells[J]. Applied Chemical Industry, 2012, 41(12):2142-2 146.
|
[13] |
杨兴华. 普光主体气藏边水特征分析及控水技术研究[D]. 成都: 西南石油大学, 2016.
|
|
YANG Xinghua. Analysis of water characteristics and water control technology of Puguang main gas reservoir[D]. Chengdu: Southwest Petroleum University, 2016.
|
[14] |
李进, 王昆剑, 张晓诚, 等. 基于可充填AICD筛管的防砂控水一体化技术[J]. 石油机械, 2021, 49(10):45-50.
|
|
LI Jin, WANG Kunjian, ZHANG Xiaocheng, et al. Integrated sand prevention and water control technology based on fillable AICD screen[J]. China Petroleum Machinery, 2021, 49(10):45-50.
|
[15] |
邹晓萍, 黄映仕, 余国达, 等. 薄互层精细地质统计学反演技术在惠州油田文昌组开发中的应用[J]. 石油地质与工程, 2013, 27(3):72-75.
|
|
ZOU Xiaoping, HUANG Yingshi, YU Guoda, et al. Application of thin interbedded fine geostatistical inversion technique in the development of Wenchang formation in Huizhou oilfield[J]. Petroleum Geology and Engineering, 2013, 27(3):72-75.
|
[16] |
吴宇翔, 柳保军, 丁琳, 等. 珠江口盆地西江凹陷南部文昌组层序地层及沉积体系研究[J]. 海洋地质与第四纪地质, 2022, 42(1):146-158.
|
|
WU Yuxiang, LIU Baojun, DING Lin, et al. Study on sequence stratigraphy and sedimentary systems of the Wenchang formation in the southern Xijiang depression of the Pearl River Mouth basin[J]. Marine Geology & Quaternary Geology, 2022, 42(1):146-158.
|
[17] |
刘杰, 徐国盛, 温华华, 等. 珠江口盆地惠州26-6构造古潜山—古近系油气成藏主控因素[J]. 天然气工业, 2021, 41(11):54-63.
|
|
LIU Jie, XU Guosheng, WEN Huahua, et al. Main factors controlling the formation of buried hill-Paleogene reservoirs in 26-6 structure of Huizhou,Pearl River Mouth basin[J]. Natural Gas Industry, 2021, 41(11):54-63.
|
[18] |
沈伟军, 李熙喆, 陆家亮, 等. 异常高压气藏开发物理模拟相似理论研究[J]. 科学技术与工程, 2013, 13(35):10460-10 465.
|
|
SHEN Weijun, LI Xizhe, LU Jialiang, et al. Similarity theory of physical simulation in the development of abnormal pressure gas reservoirs[J]. Science Technology and Engineering, 2013, 13(35):10460-10 465.
|
[19] |
刘义坤, 王海栋, 孟文波, 等. 深海底水气藏水平井充填透气阻水砾石的增产实验[J]. 天然气工业, 2020, 40(1):61-68.
|
|
LIU Yikun, WANG Haidong, MENG Wenbo, et al. Stimulation experiment of horizontal wells filled with permeable and water-blocking gravel in deepsea bottom-water gas reservoirs[J]. Natural Gas Industry, 2020, 40(1):61-68.
|
[20] |
庞伟, 陈德春, 张仲平, 等. 非均质油藏水平井分段变密度射孔优化模型[J]. 石油勘探与开发, 2012, 39(2):214-221.
|
|
PANG Wei, CHEN Dechun, ZHANG Zhongping, et al. Segmentally variable density perforation optimization model for horizontal wells in heterogeneous reservoirs[J]. Petroleum Exploration and Development, 2012, 39(2):214-221.
|