个人信息Personal Information
职称:副教授
硕士生导师
毕业院校:中国石油大学(北京)
学科:流体力学
学历:研究生(博士后)
学位:工学博士学位
所在单位:土木与资源工程学院
电子邮箱:
办公地点:土木楼318
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[34] Gao, Wenbin; Li, Yiqiang; Kong, Debin; Luan, Huoxin; Chen, Xin; Qi, Huan; Tang, Xiang. Effect of Grain Size Distribution on Pore Size Distribution Characteristics in a Conglomerate Reservoir from an Alluvial Fan Via Artificial Rock Approach[J]. SPE Journal, 2023, 28(06): 3063-3078.
[33] Gao, Jidong; Kong, Debin; Peng, Yingfeng; Zhou, Yunzhu; Liu, Yuwei; Zhu, Weiyao. Pore-scale mechanisms and hysteresis effect during multi-cycle injection and production process in underground hydrogen storage reservoir[J]. Energy, 2023, 283: 129007.
[32] 曹涵; 李宜强; 刘哲宇; 孔德彬; 刘涛; 岳航. 多因素作用下的稠油流动界限试验[J].中国石油大学学报(自然科学版),2023,47(06):104-110.
[31] Kong, Debin; Meng, Xianglong; Zhu, Jiadan; Zhou, Wenning. Molecular Dynamics Simulation of Surfactant Induced Wettability Alteration of Shale Reservoirs[J]. Frontiers in Energy Research, 2023, 11: 1272132.
[30] Li, Bingbing; Zhu, Weiyao; Ma, Qipeng; Li, Hua; Kong, Debin; Song, Zhiyong. Pore-scale visual investigation on the spontaneous imbibition of surfactant solution in oil-wet capillary tubes[J]. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 2022, 44(2): 3395-3405.
[29] Li, Hua; Zhu, Weiyao; Niu, Hao; Gao, Yubao; Chen, Zhen; Song, Zhiyong; Kong, Debin. 2-D porous flow field reveals different EOR mechanisms between the biopolymer and chemical polymer[J]. Journal of Petroleum Science and Engineering, 2022, 210: 110084.
[28] Yu, Xiaoluan; Niu, Hao; Li, Hua; Du, Chunan; Song, Zhiyong; Kong, Debin; Zhu, Weiyao. Pore-Scale Flow Fields of the Viscosity-Lost Partially Hydrolyzed Polyacrylamide Solution Caused by Sulfide Ion[J]. Energies, 2022, 15(6): 2048.
[27] Kong, Debin; Gao, Jidong; Lian, Peiqing; Zheng, Rongchen; Zhu, Weiyao; Xu, Yi. Characteristics of gas-oil contact and mobilization limit during gas-assisted gravity drainage process[J]. Advances in Geo-Energy Research, 2022, 6(2).
[26] Zhu, Weiyao; Liu, Yuwei; Shi, Yunqing; Zou, Guodong; Zhang, Qitao; Kong, Debin; . Effect of dynamic threshold pressure gradient on production performance in water-bearing tight gas reservoir[J]. Advances in Geo-Energy Research, 2022, 6(4).
[25] Zhang, Xiaofang; Li, Yuhuan; He, Yang; Kong, Debin; Klein, Bern; Yin, Shenghua; Zhao, Hongyu. Preparation of magnetic activated carbon by activation and modification of char derived from Co-pyrolysis of lignite and biomass and Its adsorption of heavy-metal-containing wastewater[J]. Minerals, 2022, 12(6): 665.
[24] Zhang, Xiaofang; Li, Yuhuan; He, Yang; Kong, Debin; Klein, Bern; Yin, Shenghua; Zhao, Hongyu. Co-pyrolysis characteristics of lignite and biomass and efficient adsorption of magnetic activated carbon prepared by co-pyrolysis char activation and modification for coking wastewater[J]. Fuel, 2022, 324: 124816.
[23] Kong, Debin; Gao, Jidong; Zhu, Weiyao; Yue, Ming; Li, Haosen. Experimental study on conductivity and stress sensitivity of fully supported fractured shale cores[J]. Journal of Petroleum Science and Engineering, 2022, 218: 110971.
[22] Zhou, Wenning; Zhu, Jiadan; Wang, Haobo; Kong, Debin. Transport diffusion behaviors and mechanisms of CO2/CH4 in shale nanopores: Insights from molecular dynamics simulations[J]. Energy & Fuels, 2022, 36(19): 11903-11912.
[21] Liu, Yuwei; Zhu, Weiyao; Kong, Debin; Yue, Ming. Analytical model of hydraulic fracturing horizontal well gas production capacity of a water-bearing tight sandstone reservoir considering planar heterogeneity[J]. Physics of Fluids, 2022, 34(12): 126603.
[20] 朱维耀; 刘昀枫; 李忠兴; 岳明; 孔德彬. 朱维耀, 刘昀枫, 李忠兴, 等. 致密油多尺度渗流数学模型及影响因素分析[J]. 中南大学学报: 自然科学版, 2022, 53(6): 2347-2360.
[19] 贺月祥; 张可; 孔德彬; 张宇; 李傲. 近混相状态下油/水/烃气三相流的相对渗透率研究 [J]. 陕西科技大学学报, 2022, 40 (06): 101-107.
[18] 廉培庆; 赵华伟; 孔德彬; 段太忠. 桑托斯盆地盐下湖相碳酸盐岩油藏储层分类 [J]. 中国科技论文, 2022, 17 (09): 986-991.
[17] Kong, Debin; Gao, Yubao; Sarma, Hemanta; Li, Yiqiang; Guo, Hu; Zhu, Weiyao. Experimental investigation of immiscible water-alternating-gas injection in ultra-high water-cut stage reservoir[J]. Advances in Geo-Energy Research, 2021, 5(2): 139-152.
[16] Zhu, Weiyao; Liu, Yunfeng; Li, Zhongxing; Yue, Ming; Kong, Debin. Study on pressure propagation in tight oil reservoirs with stimulated reservoir volume development[J]. ACS omega, 2021, 6(4): 2589-2600.
[15] 朱维耀; 沙玉博; 孔德彬; 杨连枝. 深层致密气藏气体扩散渗流数学模型及影响因素[J]. 天然气地球科学, 2021, 32(5): 695-702.
[14] Kong, Debin; Lian, Peiqing; Zheng, Rongchen; Li, Yiqiang. Performance demonstration of gas-assisted gravity drainage in a heterogeneous reservoir using a 3D scaled model[J]. RSC advances, 2021, 11(49): 30610-30622.
[13] Kong, Debin; Lian, Peiqing; Zhu, Weiyao; Li, Yiqiang. Pore-scale investigation of immiscible gas-assisted gravity drainage[J]. Physics of Fluids, 2020, 32(12): 122004.
[12] 朱维耀; 张迪; 黄堃; 孔德彬. 纳微米聚合物微球在致密砂岩中的渗流规律及驱油效果研究[J]. 现代化工, 2020, 40(7): 166-170.
[11] Guo, Hu; Li, Yiqiang; Kong, Debin; Ma, Ruicheng; Li, Binhui; Wang, Fuyong. Lessons learned from alkali/surfactant/polymer-flooding field tests in China[J]. SPE Reservoir Evaluation & Engineering, 2019, 22(01): 78-99.
[10] Kong, Debin; Li, Yiqiang; Sarma, Hemanta; Xu, Shanzhi; Li, Qiang; Yu, Ming. Investigation into micro-physicochemical interaction between sodium dodecylbenzene sulfonate (SDBS) and partially hydrolyzed polyacrylamide (HPAM) utilizing electron probe microanalysis method[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2019, 561: 187-193.
[9] Kong, Debin; Li, Yiqiang; Yu, Ming; Ma, Ruicheng; Guo, Hu; Peng, Yingfeng; Xu, Shanzhi; Yan, Hua. Experimental investigation on block and transport characteristics of foam in porous media for enhanced oil recovery processes[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2019, 570: 22-31.
[8] She, Haicheng; Kong, Debin; Li, Yiqiang; Hu, Zaiqiang; Guo, Hu. Recent advance of microbial enhanced oil recovery (MEOR) in China[J]. Geofluids, 2019, 1871392.
[7] 朱焱; 高文彬; 李瑞升; 李宜强; 袁靖舒; 孔德彬; 刘吉雨; 岳增存. 变流度聚合物驱提高采收率作用规律及应用效果[J]. 石油学报, 2018, 39(2): 189-200,246.
[6] 孔德彬; 李宜强; 苑慧莹; 阿曼; 古丽; 阿西木; 孙林涛; 徐善志; 陈建勋. 聚合物强化泡沫在多孔介质中的运移特性及驱油效果研究[J]. 高校化学工程学报, 2018, 32(5): 1027-1033.
[5] Xin, Xiankang; Li, Yiqiang; Yu, Gaoming; Wang, Weiying; Zhang, Zhongzhi; Zhang, Maolin; Ke, Wenli; Kong, Debin; Wu, Keliu; Chen, Zhangxin. Non-Newtonian flow characteristics of heavy oil in the Bohai Bay oilfield: Experimental and simulation studies[J]. Energies, 2017, 10(11): 1698.
[4] 孔德彬; 李宜强; 岳增存; 向建安; 杨怀军; 刘天洋. 表面活性剂 DPS 的性能优化研究[J]. 油田化学, 2016, 33(4): 692-695.
[3] Kong, Debin; Wang, Chao; Zhou, Fei; Li, Yiqiang; Ma, Ruicheng; Zhao, Qinghui. Mechanistic studies of gravity-assisted water flooding in a thick heavy oil reservoir through horizontal injectors using three-dimensional physical model[J]. Mathematical Problems in Engineering, 2016, 7205260.
[2] Li, Binhui; Li, Yiqiang; Kong, Debin; Chen, Yihang; Fei, Chunguang; He, Yingfu. Research on Influence Factors and Screening Method of Tight Sandstone Oil Reservoir CO 2 Huff and Puff Based on Multi-index[J]. Chemical Engineering Transactions, 2016, 55: 343-348.
[1] 刘化龙; 李宜强; 孔德彬; 路春楠; 陈志伟. 不同矿化度水质稀释聚合物溶液驱油效果研究[J]. 科学技术与工程, 2015 (4): 30-33.
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[26] Weiyao, ZHU; Kong, Debin; Shu, Qinglin; Yang, Haien; Huang, Kun; Li, Nan; Xia, Jing; .Device and method for measuring two-phase relative permeability curve of unconventional oil reservoir,2022,US Patent 11,402,316
[25] Weiyao, ZHU; Liu, He; Liu, Yunfeng; Shu, Qinglin; Song, Zhiyong; Yue, Ming; Wang, Zenglin; Kong, Debin; Li, Aishan; Li, Bingbing; .Simulation method for flow field of multi-stage fracturing on horizontal well in tight oil reservoir,2021,US Patent 10,976,470
[24] Weiyao, ZHU; Huang, Kun; Xia, Jing; Jiang, Tongwen; Yue, Ming; Luo, Kai; Song, Zhiyong; Wang, Baichuan; Kong, Debin; .Device and method for measuring overburden of injected gas in cyclic gas injection development of condensate gas reservoir,2021,US Patent 10,947,836
[23] Weiyao, ZHU; Song, Zhiyong; Wu, Jianfa; Ma, Shou; Kong, Debin; Yue, Ming; Chen, Zhen; Gao, Yubao; .Method and device for developing shale gas by tapered gradient pressure drop with multi-stage fractured horizontal well,2021,US Patent 11,136,871
[22] Weiyao, ZHU; Huang, Kun; Chen, Zhen; Yue, Ming; Song, Zhiyong; Li, Hua; Wang, Baichuan; Kong, Debin; .Methods of optimizing well spacing for shale gas development,2020,US Patent 10,822,938
[21] Weiyao, ZHU; Yue, Ming; Liu, Yuwei; Liu, Wenchao; Liu, Yunfeng; Kong, Debin; .Methods for optimizing bunch distance of fractured horizontal wells of shale gas,2020,US Patent 10,761,241
[20] 孔德彬, 刘昀枫, 宋田茹, 朱维耀, 岳明, 宋洪庆.一种低渗致密油藏CO2吞吐选井方法,2021.08.09,中国,CN202110906835.3
[19] 孔德彬, 李宜强, 袁靖舒, 李斌会, 马瑞程.人造砾岩岩芯润湿性的控制方法,2016.03.30,中国,CN201610191484.1
[18] 孔德彬, 李宜强, 李斌会.一种驱油用泡沫性能的在线检测装置,2015.12.07,中国,CN201510887428.7
[17] 朱维耀, 孔德彬, 高冀东, 李华, 宋智勇, 岳明, 潘滨.泡沫与内源微生物协同作用驱油的方法,2022.01.13,中国,CN202210035607.8
[16] 朱维耀, 邹国栋, 蒋廷学, 严谨, 孔德彬, 岳明, 刘雨薇.非常规气藏启动压力梯度确定方法及装置,2021.10.26,中国,CN202111248115.9
[15] 朱维耀, 孔德彬, 黄堃, 夏静, 岳明, 李保柱, 宋智勇.利用PVT实验和机器学习判断气窜的方法及装置,2021.01.12,中国,CN202110036346.7
[14] 朱维耀, 夏静, 孔德彬, 岳明, 李保柱, 卜文港, 黄堃, 宋智勇.深层凝析气藏多相多流态判别方法及装置,2020.12.18,中国,CN202011507563.1
[13] 朱维耀, 杨海恩, 王增林, 李爱山, 孔德彬, 岳明, 黄堃, 邹国栋.非常规油藏两相相对渗透率曲线测定装置及方法,2020.11.26,中国,CN202011347721.1
[12] 朱维耀, 宋智勇, 吴建发, 陈震, 岳明, 孔德彬.页岩气多级压裂水平井台阶梯度压降开发方法及装置,2020.11.26,中国,CN202011344521.0
[11] 宋智勇, 朱澎芮, 孔德彬, 朱维耀, 杨连枝, 李华.一种可视化模型、气体超覆现象的可视化装置及方法,2020.11.24,中国,CN202011326205.0
[10] 朱维耀, 刘凯, 岳明, 孔德彬, 陈震, 史云清, 吴建发.非常规油气藏非均匀地质参数的获取方法及装置,2020.11.02,中国,CN202011204977.7
[9] 朱维耀, 岳明, 吴建发, 刘凯, 陈震, 宋智勇, 孔德彬.一种非常规气藏流场结构识别方法及装置,2020.09.04,中国,CN202010920207.6
[8] 朱维耀, 刘昀枫, 宋智勇, 岳明, 孔德彬, 李兵兵, 邹国栋.一种致密油藏水平井多级压裂流场形态模拟方法,2020.03.26,中国,CN202010221579.X
[7] 计秉玉, 于洪敏, 李宜强, 伦增珉, 徐善志, 吕成远, 孔德彬, 王欢, 于志浩, 聂俊, 杨书.气驱水相渗评估方法、装置及系统,2019.05.29,中国,CN201910457605.6
[6] 李宜强, 孔德彬, 李斌会, 袁靖舒.人造砂岩岩芯润湿性的控制方法,2016.03.30,中国,CN201610190951.9
[5] 李宜强, 孔德彬, 李斌会, 陈一航, 崔洺珲.一种驱油用泡沫性能的在线检测方法,2015.12.07,中国,CN201510887385.2
[4] 李斌会, 余昭艳, 李宜强, 刘哲宇, 郭虎, 席彦强, 孔德彬.大液量恒压驱替室内物理模拟实验装置,2015.06.12,中国,CN201510322248.4
[3] 李宜强, 刘哲宇, 李斌会, 余昭艳, 孔德彬, 郭虎, 孙晨, 席彦强.大液量恒压驱替室内物理模拟实验方法,2015.06.12,中国,CN201510322261.X
[2] 王付勇, 李宜强, 郑世毅, 高现, 孔德彬, 汤翔.一种基于小波变换来判断油藏物性参数是否变化的方法,2014.10.16,中国,CN201410549562.1
[1] 李宜强, 孔德彬,李彦阅,王彦升.一种人造砾岩岩心、制备方法及其用途,2014.03.25,中国,CN201410114347.9