研究中心
位置:
研究成果
1、中心研究成果概况
中心主要成员获得国家科技进步二等奖1项、省部级科技进步奖20项;获批包括重点基金在内的国家自然科学基金10项,国家九五重点攻关2项、国家973项目2项,国家科技支撑计划课题2项,国家双多边(中美)合作重点研发专题1项,十三五国家油气重大专项3项,黑龙江省揭榜挂帅项目1项,全国博士后创新人才支持计划项目2项,中石油、中石化攻关项目9项。发表论文540余篇,包括SCI论文240余篇。
2、代表性成果
(1)科技奖励
卢双舫,薛海涛,王民,李吉君,陈方文,黄文彪,肖佃师,王伟明,陈中红,杨金秀,唐明明,陈国辉,李俊乾,李文浩等,教育部高等学校科学研究优秀成果奖科技进步二等奖,有机质成烃动力学理论及应用,2019.
卢双舫,李吉君,王民,马锋,薛海涛,张三盛,黄文彪,肖佃师,汪萍,王伟明,张新顺等,2018,教育部高等学校科学研究优秀成果奖科技进步二等奖,中国页岩油富集条件、资源潜力评价关键技术及应用.
王民,黄文彪,卢双舫,单玄龙,薛海涛,肖佃师,孟凡超,陈方文,张美玲,陈海峰等.2014,中国石油和化学工业联合会,科技进步二等奖,岩浆热效应定量表征技术及其在火山岩油气资源潜力评价中的应用.
卢双舫,薛海涛,李吉君,王民,李贤丽,于润涛,王伟明,张雷,陈方文,2010年,黑龙江省科技进步二等奖,不同水介质条件下有机质和油成气过程中氢同位素分馏的化学动力学研究及其初步应用, 2010-088-01.
黄第藩,秦匡宗,王铁冠,张大江,卢双舫,1997年,国家科技部,国家自然科学奖二等奖,煤成油的形成条件和成烃机理,25-2-002-05
卢双舫,刘晓艳,付晓泰,王振平,冯亚丽,方立敏,薛海涛,曲佳燕,王雅春,任庆东,王峰,2002年,国家教育部,科技进步一等奖,未熟-低熟油形成机理的化学动力学研究及其应用, 2001-168-01.
黄第藩,秦匡宗,王铁冠,张大江,卢双舫,1996年,中国石油天然气总公司,科技进步一等奖,煤成油的形成条件和成烃机理.
赵孟军,周兴熙,卢双舫等,1999年,新疆自治区政府,科技进步二等奖,塔里木盆地天然气分布规律及勘探方向姜民政,机械采油装备再制造关键技术研究与应用,黑龙江省人民政府,科学技术进步奖,二等奖,2018.12.
姜民政 等,拖动装置与抽油机系统合理匹配优化技术,黑龙江省人民政府,科学技术进步奖,二等奖,2016.08.
姜民政 等,油田中后期抽油机井高效运行关键技术与应用,黑龙江省人民政府,科学技术进步奖,一等奖,2013.11.
姜民政 等,大庆油田特高含水期举升工艺优化设计方法及配套技术研究与应用,黑龙江省人民政府,科学技术进步奖,二等奖,2011.11.
姜民政 等,套损井整形中水泥与套管胶结面损伤机理研究,黑龙江省人民政府,科学技术进步奖,二等奖,2009.08.
董康兴 等,油田开采中后期人工举升节能关键技术及工业应用,黑龙江省科学技术进步奖,二等奖,2020.
(2)科研项目
国家自然科学基金重点基金, 41330313, 页岩的成储机理及页岩油的可流动性研究——以松辽盆地、济阳坳陷为例, 2014/01-2018/12, 310万元
国家重点研发计划项目, 2016YFE0102400, 能源与水纽带关系及高效绿色利用关键技术, 2016.12—2020.12
国家自然科学基金,41172134,泥页岩非均质性评价及其与页岩油气富集关系,2012-2015,82万元。
国家自然科学基金, 4167020697, 页岩气解析过程中同位素分馏的定量表征及在页岩气关键评价参数确定中的应用, 2017/01-2020/12, 68万元
国家自然科学基金, 42272156, 非常规油气地质-工程一体化运筹学优化决策, 2023/01-2026/12, 57万元
国家自然科学基金, 51374074, 界面非对称剪切滑移诱导缝网裂缝扩展机理研究,2014.1-2017.12
国家自然科学基金, 416772116, 致密砂岩微-纳米孔喉体系中油赋存特征和可动性研究, 2017-2020.
国家自然科学基金,考虑弹性湍流的聚合物驱微观渗流机制及其对驱油效率的影响,2017-2019
国家自然科学基金, 41802157, 气体扩散、渗流过程中同位素分馏机理及定量表征研究, 2019.01-2021.12, 25万元
国家“973”计划专项课题,致密储层人工缝网形成与重复压裂改造控制机理(编号:2015CB250903),2015.1-2019.12
十三五国家油气重大专项, 2017ZX05070-01, 砂砾岩致密油示范区有利储层优选及建模, 2017ZX05070-01, 2017-2020, 308.6万元
十三五国家油气重大专项, 2016ZX05061-003-001, 页岩气储层定量表征与“甜点区”评价, 2016-2020, 240万元
十三五国家油气重大专项, 2016ZX05046-001-005, 致密油充注聚集机理与模式研究, 2016-2020, 137.4万元
博士后创新人才支持计划, BX201700289, 复杂体系下页岩气竞争吸附作用及同位素分馏效应微观机理研究, 2017/07-2019/07, 60万元
博士后创新人才支持计划, BX20220062, 多尺度孔-裂隙系统内甲烷运移过程中的同位素分馏机理及定量表征研究, 2022.07-2024.07, 63万元
黑龙江省揭榜挂帅项目, 古龙页岩油相态、渗流机理及地质工程一体化增产改造研究, 2021.07-2024.07.
黑龙江省省院科技合作项目,水平井体积压裂套管失效机制研究(编号:YS19A04),2019.11-2022.11
黑龙江省自然科学基金优秀青年项目, YQ2023D001, 陆相页岩原位含气性参数定量评价方法研究, 2023.07-2026.07
中国石油创新科学基金,层理性页岩射孔工艺及参数优化研究(编号:2020D-5007-0206),2020.12-2022.12
黑龙江省自然科学基金,考虑界面追踪的黏弹性聚合物-稠油两相渗流机理研究,2017-2020
黑龙江省高校创新人才培养计划,基于OpenFOAM的黏弹性聚合物驱稠油微观渗流机制研究,2016-2019
中石化基础研究, 致密储层成储下限及分级评价标准, 2014-2016, 99万
中石化十条龙项目, 南川复杂构造带页岩气勘探开发关键技术, 2019-2021, 280万元
中国石油新疆油田攻关, 砂砾岩油藏水平井开发地质-工程-经济一体化优化定量评价方法研究, 2022~2023, 53万元
中联煤攻关, 深层煤层气关键开发参数定量优化研究, 2023~2024, 80万元
中石化攻关, 页岩气同位素分馏效应及勘探开发应用, 2017-2019, 260万元
中国石油勘探开发研究院,页岩油藏孔隙流体赋存空间与流动性评价,2022-2023,79.4万
中海油,致密储层沉积-成岩微观结构特征及表征,2021-2023,90.3万
中石化攻关,泥页岩微观结构表征与含油性、油气可流动性评价,2014-2016,300万
中石油攻关,页岩含油气组合技术可采资源评价方法研究与美国典型盆地解剖研究,2013-2014,100万
(3)学术论文(部分成果)
Shuangfang Lu, Wenbiao Huang, Fangwen Chen et al. Classification and evaluation criteria of shale oil and gas resources: Discussion and application(页岩油气资源分级评价标准探讨)Petroleum exploration and development, 石油勘探与开发, 2012,39(2),249-256,F5000中国精品科技期刊顶尖学术论文,被引389次
卢双舫,薛海涛﹡,王民,肖佃师,黄文彪,李俊乾,谢柳娟,田善思,王森,李吉君等,2016,页岩油评价中的若干关键问题及研究趋势,石油学报, 37(10),1309-1322,F5000中国精品科技期刊顶尖学术论文
Pengfei Zhang, Shuangfang Lu*, Junqian Li*, Chen Chen, Haitao Xue, Jie Zhang. Petrophysical characterization of oil-bearing shales by low-field nuclear magnetic resonance (NMR). Marine and Petroleum Geology, 2018, 89, 775-785.高被引
Pengfei Zhang, Shuangfang Lu*, Junqian Li, Haitao Xue, Wenhao Li, Ping Zhang, 2017. Characterization of shale pore system: A case study of Paleogene Xin'gouzui Formation in the Jianghan basin, China. Marine and Petroleum Geology, 79(1): 321-334.高被引
Zhang Pengfei, Lu Shuangfang, Li Junqian, Chang Xiangchun. 1D and 2D Nuclear magnetic resonance (NMR) relaxation behaviors of protons in clay, kerogen and oil-bearing shale rocks. Marine and Petroleum Geology, 2020, 114, 104210.高被引
Dianshi Xiao, Shu Jiang, David Thul, Shuangfang Lu. Impactsof clay on pore structure, storage and percolation of tightsandstones from the Songliao Basin, China: Implications forgenetic classification of tight sandstone reservoirs, Fuel.2018, 211(1).高被引
Jijun Li, Zhao Liu, Junqian Li, et al. Fractal characteristics of continental shale pores and its significance to the occurrence of shale oil in china: A case study of Biyang Depression. Fractals, 2018.高被引
Jijun Li, Jianxin Yin, Yanian Zhang, Shuangfang Lu*. A comparison of experimental methods for describing shale pore features—A case study in the Bohai Bay Basin of eastern China. International Journal of Coal Geology, 2015, 152, 39-49.热点论文
LU Shuangfang,LI Junqian, XIAO Dianshi, XUE Haitao, ZHANG Pengfei, Li Jijun, CHEN Fangwen, HUANG Wenbiao, WANG Min, LI Wenhao,Research progress of microscopic pore–throat classification and grading evaluation of shale reservoirs: A mini review. Energy & Fuel,2022,36(4)
Shuang-Fang Lu,Guo-Qi Feng,Ming-Li Shao,Ji-Jun Li*,Hai-Tao Xue,Min Wang,Fang-Wen Chen,Wen-Biao Li,Xiao-Ting Pang, Kinetics and fractionation of hydrogen isotopes during gas formation from representative functional groups, Petroleum Science, 2021, 18 , 1021-1032
Lu, Shuangfang; Li, Jijun; Xue, Haitao; Chen, Fangwen; Xu, Qingxia; Wang, Min; Li, Wenbiao; Pang, XiaotingPyrolytic Gaseous Hydrocarbon Generation and the Kinetics of Carbon Isotope Fractionation in Representative Model Compounds With Different Chemical Structures. GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS,2019
Lu Shuangfang,LI Junqian*, ZHANG Pengfei, XUE Haitao1,WANG Guoli, ZHANG Jun,LIU Huimin,LI Zheng, Classification of microscopic pore-throats and the grading evaluation on shale oil reservoirs. PETROLEUM EXPLORATION AND DEVELOPMENT, 2018.45(3): 452–460. (卢双舫,李俊乾,张鹏飞,薛海涛,王国力,张俊,刘惠民 ,李政.2018,页岩油储集层微观孔喉分类与分级评价,石油勘探与开发,45(3):436-444)
Lu Shunagfang, Huang Wenbiao*, Li Wenhao, Xue Haitao, Xiao Dianshi, Li Jijun, Wang Min, Wang Weiming, Chen Fangwen, Zhang Jun, Deng Shouwei, Tang Zhenxing,Lower limits and grading evaluaion criteria of tight oil source rocks of southern Songliao Basin, NE China(松辽盆地南部致密油源岩下限与分级评价标准),2017,Petroleum Exploration and Development,44(3):473-480
Lu Shuangfang, Chen Fangwen(*), Ju Yiwen, Type and Quantitative Evaluation of Micropores in Longmaxi Shale of Southeast Chongqing, China,Journal of Nanoscience and Nanotechnology,2017,17(9): 7035-7043
Lu Shuangfang, Liu Wei,Wang Min*, Zhang Linye, Wang Zhentao, Chen Guohui, Xiao Dianshi, Li Zhandong, Hu Huiting,2017,Lacustrine Shale Oil Resource Potential of Es3L Sub -Member of Bonan Sag, Bohai Bay Basin, Eastern China,Journal of Earth Science,2017,28(6):996-1005
Lu Shuangfang, Chen Fangwen, Li Jijun, et al. Identification of the lower limit of high-quality source rocks and its relation to hydrocarbon accumulation-Taking the Beier Sag in the Hailaer Basin as an example[J]. PETROLEUM SCIENCE. 2012, 9(1): 1672-5107.
LU Shuangfang, HUANG Wenbiao, LI Wenhao, XUE Haitao, XIAO Dianshi, LI Jijun, WANG Weiming, WANG Min, CHEN Fangwen, DENG Shouwei, and TANG Zhenxing, Lower Limits and Grading Evaluation Criteria of Source Rocks and Reservoirs of Tight Oil and Gas. Acta Geologica Sinica (English Edition), 2015.87(supp.):67-70.
Guohui Chen, Chun Li, Shuangfang Lu*,et al;Critical factors controlling adsorption capacity of shale gas in Wufeng-Longmaxi formation, Sichuan Basin: evidences from both experiments and molecular simulationsJournal of Natural Gas Science and Engineering, 2021,accepted
Guohui Chen, Shuangfang Lu*, Keyu Liu*, Qingzhong Xue, Tongcheng Han, Chenxi Xu, Maosheng Tong, Xiaoting Pang, Binwu Ni, Critical Factors Controlling Shale Gas Adsorption Mechanisms on Different Minerals Investigated Using GCMC Simulations,Marine and Petroleum Geology,2019,100: 31-42
Guohui Chen, Shuangfang Lu*, Keyu Liu*, Qingzhong Xue, Chenxi Xu, Shansi Tian, Jinbu Li, Yuying Zhang, Maosheng Tong, Xiaoting Pang, Binwu Ni, Shudong Lu, Qingpeng Qi,Investigation of pore size effects on adsorption behavior of shale gas,Marine and Petroleum Geology,2019,109:1-8
Guohui Chen, Shuangfang Lu*⁎, Keyu Liu⁎, Tongcheng Han, Chenxi Xu, Qingzhong Xue, Bojian Shen, Zhiqiang Guo. GCMC simulations on the adsorption mechanisms of CH4 and CO2 in K-illite and their implications for shale gas exploration and development. Fuel, 2018. 224, 521-528.
Guohui Chen, Shuangfang Lu∗, Junfang Zhang∗, Marina Pervukhina, Keyu Liu, Min Wang, Tongcheng Han, Shansi Tian, Jinbu Li, Yuying Zhang, Chenxi Xu. 2018. A method for determining oil-bearing pore size distribution in shales-A case study from the Damintun Sag, China. Journal of Petroleum Science and Engineering, 2018, 166, 673-678.
Guohui Chen, Shuangfang Lu*, Junfang Zhang*, Qingzhong Xue, Tongcheng Han, Haitao Xue, Shansi Tian, Jinbu Li, Chenxi Xu, Marina Pervukhina,2017,Keys to linking GCMC simulations and shale gas adsorption experiments,Fuel,199:14-21
Guohui Chen, Shuangfang Lu*, Junfang Zhang*, Min Wang, Jinbu Li, Chenxi Xu, Marina Pervukhina, Jiao Wang,2017,Estimation of Enriched Shale Oil Resource Potential in E2s4L member of Damintun Sag in Bohai Bay Basin, China,Energy & Fuel,31(4), 3635-3642
Guohui Chen, Shuangfang Lu*, Jinbu Li, Haitao Xue, Min Wang, Shansi Tian, Xin Wang, and Kaizhan Huang,2017,A Method to Recover the Original Total Organic Carbon Content and Cracking Potential of Source Rocks Accurately Based on the Hydrocarbon Generation Kinetics Theory,J. Nanosci. Nanotechnol,17(9), 6169-6177
Guohui Chen, Shuangfang Lu*, Junfang Zhang*, Qingzhong Xue, Tongcheng Han, Haitao Xue, Shansi Tian, Jinbu Li, Chenxi Xu, Marina Pervukhina, Ben Clennell, 2016. Research of co2 and n2 adsorption behavior in k-illite slit pores by GCMC method. Scientific Reports, 6, 37579.
Guohui Chen, Shuangfang Lu*, Junfang Zhang*, Marina Pervukhina, Keyu Liu, Qingzhong Xue, Hui Tian, Shansi Tian, Jinbu Li, Ben Clennell, N. Dewhurst, 2016. Adsorption Behavior of Hydrocarbon on Illite. Energy & Fuels, 30 (11), 9114–9121.
Guohui Chen, Chun Li, Shuangfang Lu*,et al,Critical factors controlling adsorption capacity of shale gas in Wufeng-Longmaxi formation, Sichuan Basin: evidences from both experiments and molecular simulations,Journal of Natural Gas Science and Engineering,2021
Li, Wenbiao; Lu, Shuangfang*,Junqian Li; et al;Carbon isotope fractionation during shale gas transport: Mechanism, characterization and significance,Science China(Earth Sciences),2020, 63(5):674-689.
Li Wenbiao, Lu Shuangfang*, Li Junqian*, et al. Geochemical modeling of carbon isotope fractionation during methane transport in tight sedimentary rocks. Chemical Geology, 2021, 566(8): 120033.
Li Wenbiao, Li Junqian*, Lu Shuangfang*, et al. Evaluation of gas-in-place content and gas-adsorbed ratio using carbon isotope fractionation model: A case study from Longmaxi shales in Sichuan Basin, China. International Journal of Coal Geology, 2022, 249(1): 103881.
Li Wenbiao, Li Xiao, Zhao Shengxian, Li Junqian*, Lu Shuangfang*, et al. Evaluation on carbon isotope fractionation and gas-in-place content based on pressure-holding coring technique. Fuel, 2022, 315(11): 123243.
Li Wenbiao, Lu Shuangfang*, Li Junqian*, et al. Concentration loss and diffusive fractionation of methane during storage: Implications for gas sampling and isotopic analysis. Journal of Natural Gas Science and Engineering, 2022, 101: 104562.
Wenhao Li, Weiming Wang, Shuangfang Lu*, Haitao Xue,2017,Quantitative characterization on shale-hosted oil reservoir: a case study of argillaceous dolomite reservoir in the Jianghan Basin,Fuel,206, 690-700
Wenhao Li, Shuangfang Lu*, Zhaozhao Tan, Taohua He,2017,Lacustrine Source Rock Deposition in Response to Coevolution of the Paleoenvironment and Formation Mechanism of Organic-rich Shales in the Biyang Depression, Nanxiang Basin,Energy & Fuels,31(12)
Wenhao Li, Shuangfang Lu*, Haitao Xue, Pengfei Zhang, Ying Hu, 2016. Microscopic pore structure in shale reservoir in the argillaceous dolomite from the Jianghan Basin. Fuel, 181: 1041-1049.
Wenhao Li, Shuangfang Lu, Haitao Xue, Pengfei Zhang, Ying Hu, 2015. Oil content in argillaceous dolomite from the Jianghan Basin, China: Application of new grading evaluation criteria to study shale oil potential. Fuel, 143: 424-429.
Wenhao Li, Shuangfang Lu, Haitao Xue, Pengfei Zhang, Shiqiang Wu, 2015. The formation environment and developmental models of argillaceous dolomite in the Xingouzui Formation, the Jianghan Basin. Marine and Petroleum Geology, 67: 692-700.
Li Wenbiao, Lu Shuangfang*, Li Junqian, Wei Yongbo, Zhao Shengxian, Zhang Pengfei, Wang Ziyi, Li Xiao, Wang Jun. Research progress on isotopic fractionation in the process of shale gas/coalbed methane migration. Petroleum Exploration and Development, 2022, 49(5):1069-1084.
Li, Wenbiao; Lu, Shuangfang*,et al;Carbon isotope fractionation during shale gas transport: Mechanism, characterization and significance,Science China Earth Sciences,2020,63(5):674-689.( 李文镖, 卢双舫*,等;页岩气运移过程中的碳同位素分馏: 机理、表征及意义,中国科学: 地球科学, 2020, 50(4): 533-569)
Nengwu Zhou, Min Wang*, Shuangfang Lu*, Wei Liu, Ying Guan, Changqi Yu. Evolution of pore space in tight sandstone: The roles of dissolution, calcite cementation, and clay growth. AAPG Bulletin, Online.
Nengwu Zhou, Jiamin Lu, Shuangfang Lu*, Pengfei Zhang *, Min Wang, Zizhi Lin, Xinyu Jing, Yang Liu, Guangshun Xiao, Depositional and diagenetic controls over reservoir quality of tight sandstone and conglomerate in the lower Cretaceous Shahezi formation, Xujiaweizi fault depression, Songliao basin, China. Marine and Petroleum Geology, 2023,155:106374.
Nengwu Zhou, Min Wang, Shuangfang Lu, Thomas J.H. Dodd, Wei Liu, Ying Guan. Evolution of fractal pore structure in sedimentary rocks. Earth and Space Science, 2022, e2021EA002167.
Nengwu Zhou, Shuangfang Lu, Min Wang, Wenbiao Huang, Dianshi Xiao, Chenxue Jiao, Zhixuan Wang, Weichao Tian, Lei Zhou, Fangwen Chen. Limits and grading evaluation criteria of tight oil reservoirs in typical continental basins of China[J]. Petroleum Exploration and Development, 2021, 48(5): 939-949.
Nengwu Zhou,Shuangfang Lu, Pengfei Zhang, Min Wang, Dianshi Xiao, Junqian Li, Guohui Chen, Junjie Wang, Yu Zhang, Zizhi Lin. Continental shale gas dynamic enrichment and evolution over geological time, International Journal of Coal Geology, 2021, 103914.
Nengwu Zhou, Shuangfang Lu, Min Wang, Wei Liu, Zhixuan Wang. Applicability of fractal capillary pressure models to sandstones, Journal of Petroleum Science and Engineering, 2020, 106626.
Pengfei Zhang, Shuangfang Lu*,et al;1D and 2D Nuclear magnetic resonance (NMR) relaxation behaviors of protons in clay, kerogen and oil-bearing shale rocks.Marine and Petroleum Geology,2020, 114:2020,14210
Pengfei Zhang, Yajie Yin, Shuangfang Lu*, Junqian Li, Xiangchun Chang, Junjian Zhang, Yumao Pang, Guo Chen, Yuqi Liu, Zhen Li. Insights into Pore Structures and Multifractal Characteristics of Shale Oil Reservoirs: A Case Study from Dongying Sag, Bohai Bay Basin, China. Energy & Fuel, 2022, 36, 8824-8237.
Pengfei Zhang, Shuangfang Lu*,et al;Broad ion beam-scanning electron microscopy pore microstructure and multifractal characterization of shale oil reservoir: A case sample from Dongying Sag, Bohai Bay Basin, ChinaEnergy Exploration & Exploitation,38(3):2020, 613-628
Pengfei Zhang, Shaungfang Lu*, Junqian Li, Xiangchun Chang, Zizhi Lin, Guo Chen, Jijun Li, Jinzhong Liu, Shansi Tian. Evaluating microdistribution of adsorbed and free oil in a lacustrine shale using nuclear magnetic resonance: A theoretical and experimental study. Journal of Petroleum Science and Engineering, 2022, 212, 110208.
Pengfei Zhang*, Shuangfang Lu*, Zizhi Lin, Hongliang Duan, Xiangchun Chang, Yongfeng Qiu, Qian Fu, Qi Zhi, Junjie Wang, Hongsheng Wang. Key Oil Content Parameter Correction of Shale Oil Resources: A Case Study of the Paleogene Funing Formation, Subei Basin, China. Energy & Fuel, 2022, 36, 5316-5326.
Pengfei Zhang,Shuangfang Lu*,et al;Broad ion beam-scanning electron microscopy pore microstructure and multifractal characterization of shale oil reservoir: A case sample from Dongying Sag, Bohai Bay Basin, ChinaEnergy Exploration & Exploitation,2020,38(3):613-628
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陈国辉,卢双舫*,刘可禹,许晨曦,薛庆忠,田善思,李进步,页岩气在孔隙表面的赋存状态及其微观作用机理研究,地球科学,2020, 45(5), 1782~1790
陈国辉,卢双舫*,刘可禹,许晨曦,薛庆忠,田善思,李进步,页岩气在孔隙表面的赋存状态及其微观作用机理研究,地球科学, 2020, 45(5),1782~1790
李文镖, 卢双舫*, 李俊乾*, 张鹏飞, 王思远, 冯文俊, 魏永波. 页岩气运移过程中的碳同位素分馏: 机理、表征及意义. 中国科学: 地球科学, 2020, 50(4): 553-569.
李文镖, 卢双舫*, 李俊乾, 等. 页岩气/煤层气运移过程中的同位素分馏研究进展. 石油勘探与开发, 2022, 49(5): 929-942.
李文镖, 卢双舫, 李俊乾, 等. 南方海相页岩物质组成与孔隙微观结构耦合关系. 天然气地球科学, 2019, 30(1): 27-38.
周能武, 王民, 李文浩, 卢双舫, 程泽虎. 运用大视域拼接扫描电镜定量研究泥页岩微观非均质性[J].矿物岩石地球化学通报, 2018, 37(05): 973-980+998.
周能武,卢双舫*,王民,黄文彪,肖佃师,焦晨雪,王璟明,田伟超,周磊,陈方文,刘薇,汪志璇,中国典型陆相盆地致密油成储界限与分级评价标准,石油勘探与开发,2021,48(5),939-949
张鹏飞; 卢双舫; 李俊乾; 薛海涛; 李文镖;张宇; 王思远;冯文俊.湖相页岩油有利甜点区优选方法及应用——以渤海湾盆地东营凹陷沙河街组为例,石油与天然气地质,2019,
张鹏飞, 卢双舫*, 李文浩, 胡莹, 薛海涛, 李倩, 张晗, 2016. 江汉盆地新沟嘴组页岩油储层物性下限. 石油与天然气地质, 37(1): 93-100.
姜民政,马春阳,夏法锋等.热处理温度对Ni-P-TiN纳米镀层的结构及其摩擦学性能影响[J].人工晶体学报,2015,44(11):3129-3132. (EI检索)
姜民政,张玉娥,董康兴等.抽油泵柱塞表面化学沉积 Ni-P-SiC 镀层的制备及性能研究[J].功能材料, 2014,(15):15093-15095. (EI检索)
姜民政,段天玉,张迪等,基于RS-LVQ的同井注采系统故障诊断研究[J].石油机械,2018,56 (3):95-99.
姜民政,高启明,冯子明,等. 基于SVM的机采井区块系统效率计算方法研究[J].节能技术,2017,35(2):151-155.
姜民政,曾宪来,张德实,王新民. 偏置出油阀实心柱塞小排量抽油泵[J].石油机械,2017,45(4):59-62.
姜民政,蔡玉苗,冯子明等.游梁式抽油机与驱动电机的耦合模型[J].石油机械,2013, 41(12):80-83.
姜民政,王丽丽,李庆彬等.杆管环空摩擦阻力能耗研究[J].化工机械, 2012,39(2): 210-213,250.
姜民政,孙振旭,戴彧昕等.抽油泵能耗机理数值仿真研究[J].流体机械,2011, 39(5): 35-39.
董康兴,李翘而,姜民政,李葳,徐书凡,陈天舒.基于响应曲面法的同井注采系统方卡子优化设计[J].机械设计, 2021, 38(07):41-47.
董康兴,张怀钰,程天才,姜民政.同井注采系统抽油泵泵效计算方法及影响因素分析[J].数学的实践与认识, 2019, 49 17):165-170.
董康兴,王素玲,李金波,房鑫垚.Ⅰ型裂缝经弱界面钝化扩展实验研究[J].力学与实践,2018,40(06):625-629+624.
刘雪萍,卢双舫*,唐明明,孙东权,唐佳凡,张克鑫,何涛华,齐宁,卢明月,河流-潮汐耦合控制下河口湾坝体沉积动力学数值模拟,地球科学,2021,46(08),2944-2957
李进步, 卢双舫*, 陈国辉, 单俊峰, 胡英杰, 毛俊莉, 薛海涛, 王民, 2016. 热解参数S1的轻烃与重烃校正及其意义——以渤海湾盆地大民屯凹陷E2s42段为例. 石油与天然气地质, 37(4): 538-545.
田伟超, 卢双舫*, 等,三塘湖盆地卡拉岗组火山岩风化壳储层微纳米孔隙演变机制及与含油性关系,石油与天然气地质,2019
田伟超, 卢双舫*, 等, 2015. 吐哈盆地斜坡带致密储层物性上限研究. 天然气地球科学, 26(11): 2107-2113.
何涛华,卢双舫*,李文浩,谭昭昭,王亚,张文博,章新文,南襄盆地泌阳凹陷核桃园组页岩油富集机制石油与天然气地质,2019,40(6):1-11
赵日新,卢双舫,薛海涛*,田善思扫描电镜分析参数对定量评价页岩微观孔隙的影响石油与天然气地质,2019,40(05):1141-1154
李俊乾,卢双舫*,等;页岩基质孔隙水定量表征及微观赋存机制,石油学报,2020,41(8)
李俊乾,卢双舫*,等;页岩基质孔隙水定量表征及微观赋存机制,石油学报,2020,41(8)
刘雪萍,卢双舫*,等;河流-潮汐耦合控制下河口湾坝体沉积动力学数值模拟,地球科学,2020
冯国奇;卢双舫*;李吉君;刘洁文;章新文;余志远;谭静娟,泌阳凹陷页岩油富集及可动性探讨,石油与天然气地质,2019
王璟明;肖佃师;卢双舫*;孔星星;范青青,吉木萨尔凹陷芦草沟组页岩储层物性分级评价,中国矿业大学学报,2019
檀洪坤;卢双舫;唐明明;王民;李传明;王海龙,三维数字岩心覆压矫正方法,新疆石油地质,2019
陈方文, 卢双舫, 丁雪, 2016, 黔南坳陷牛蹄塘组富有机质页岩生气期和生气量, 中国石油大学学报(自然科学版), 40(3): 55-62.
陈方文, 卢双舫, 丁雪, 2015, 泥页岩吸附气能力评价模型——以黔南坳陷牛蹄塘组吸附气含量为例, 中国矿业大学学报, 44(3): 534-539.
陈方文, 卢双舫, 丁雪, 吴逸豪, 苑丹丹, 2015, 喇嘛甸油田北北一区沉积相地震反演, 断块油气田, 22(4): 425-429.
陈方文,卢双舫,薛海涛,王文文,肖红, 2014, 王府凹陷扶余油层油气富集规律及有利勘探区, 中南大学学报(自然科学版), 45(9): 3137-3143.
陈方文, 卢双舫, 丁雪, 2014, 松辽盆地齐家—古龙凹陷中浅层烃源岩生烃量评价, 沉积学报, 32(6): 1181-1187.
陈方文, 卢双舫, 黄振凯, 王文文, 谢舟, 肖红, 2013, 松辽盆地古龙凹陷青一段沉积特征及有利勘探区, 中南大学学报(自然科学版), 44(5): 1955-1963.
陈方文, 卢双舫, 薛海涛, 李吉君, 王民, 2013, 三肇凹陷扶杨油层断裂密集带样式及有利成藏部位, 地球科学——中国地质大学学报, 38(6): 1281-1288,.
陈方文, 卢双舫, 李吉君, 刘海英, 2012, 松辽盆地北部长春岭背斜油源识别及其油源区资源评价, 中国石油大学学报(自然科学版), 36(3): 26-31.
李俊乾,卢双舫,薛海涛,等,2015. 煤岩气相渗透率变化类型及判别模式. 石油实验地质,37(6):802-808.
肖佃师,卢双舫,陈海峰,陆延平,李占东,周娟,2013. 基于频谱分解的测井曲线标准化方法.石油与天然气地质,34(1):129-137.
肖佃师,卢双舫,陈海峰,王婵娟,2012. 源外斜坡区断裂密集带对油气成藏的控制作用:以松辽盆地肇源南扶余油层为例. 中南大学学报(自然科学版),43(9):3548-3557.
肖佃师,卢双舫*,姜微微,黄文彪,张鲁川,李 勃,2017,基于粒间孔贡献量的致密砂岩储层分类--以徐家围子断陷为例,石油学报,38(10):1123-1134
肖佃师,高阳,彭寿昌,王猛,王民,卢双舫*,准噶尔盆地吉木萨尔凹陷混积岩孔喉系统分类及控制因素,石油勘探与开发,2021,48(04),719-731
黄文彪, 卢双舫*, 邓守伟, 王民, 逯瑞敬, 杨亮,郝桂宪,石瑾. (2018). 松辽盆地南部泉四段致密砂岩成岩作用及微—纳米储集空间演化. 中国石油大学学报(自然科学版),42(1):11-20.
黄文彪,程杰,邵明礼,卢双舫*,薛海涛,屈卫华,白连德,王颖,张浩,松辽盆地南部深层中-高演化阶段烃源岩品质评价标准探讨,非常规油气,2021,8(02),13-23
王民, 卢双舫*, 王文广, 陈树民, 张曦, 关莹. 2017,火山岩储层天然气运聚成藏模拟:以徐家围子断陷深层为例,地球科学,397-409
李文浩, 卢双舫, 薛海涛, 等, 2016. 江汉盆地新沟嘴组页岩油储层物性发育主控因素. 石油与天然气地质, 37(1): 1-7.
杨金秀,王红亮,何巍巍,王民,卢双舫*,2017,尼日尔三角洲天然气水合物体系地震特征研究,地球物理学报,60(10),1-10
杨金秀,张克鑫,陈和平,卢双舫*,万学鹏,唐明明,肖佃师,张超前,2017,Oriente盆地D-F油田泥岩墙成因分析及其对油藏分布的影响,石油与天然气地质,38(6)
蔡来星,卢双舫﹡,黄文彪,李昂,任欢颂,2015,上覆优质源岩对上生下储式致密油成藏的控制作用——以松南中央坳陷区青一段泥岩为例,中国矿业大学学报 45(2),280-290. EI
蔡来星,卢双舫﹡,王蛟,黄爱华,魏然, 2016,松辽盆地北部肇州区块沙河子组致密储层主控因素,成都理工大学学报(自然科学版),43(1),24-33
蔡来星,卢双舫,张训华,肖国林,吴志强,黄文彪,2017,基于孔喉结构建立致密砂岩储层评价方案——以松南中央坳陷泉四段为例,吉林大学学报(地球科学版),47(6): 1654-1667.
魏永波, 李俊乾, 卢双舫*, 宋兆京, 赵日新, 张宇, 王璟明, 刘鑫,湖相页岩油甜点综合评价方法及应用—以饶阳凹陷沙一下亚段页岩油为例,中国矿业大学学报,2021,54(4), 743-754
陈晨,卢双舫*,李俊乾,张鹏飞,张萍,不同岩相泥页岩数字岩心构建方法研究———以东营凹陷为例,现代地质,31(5):1069-1078
(4)专利
卢双舫, 陈方文, 方志雄, 何希鹏, 张俊, 王惠君, 等. 非常规油气地质工程一体化开发运筹学优化定量决策方法[P]. CN112364518A, 2021-02-12.(已公开)
陈国辉,卢双舫,李进步,许晨曦,薛海涛,王民,田善思,黄开展. 一种致密油/页岩油的纳米级含油孔径分布的测定方法,2019.4.2授权,国家发明专利,ZL201710012951.4;
陈国辉,卢双舫,李进步,许晨曦,薛海涛,王民,田善思,黄开展.测定吸附质气体在吸附质上的吸附相密度的方法,2019.3.29授权,国家发明专利,ZL201610599830.X;
陈国辉,卢双舫,李进步,许晨曦,薛海涛 ,王民,田善思,黄开展. 一种测定吸附质气体在吸附质上的吸附相密度的方法,2019.3.1授权,国家发明专利,ZL201610600239.1;
陈国辉,卢双舫,李进步,黄开展,薛海涛,王民,田善思,许晨曦. 一种对等温吸附实验中吸附质气体的过剩吸附量进行校正的方法,2018.12.14授权,国家发明专利,ZL201610599935.5;
陈国辉,卢双舫,李进步,薛海涛,王民,肖佃师,陈方文,田善思,穆国栋,严鑫桐,王新,田伟超,苑丹丹,宋立平,梁宏儒. 一种干酪根直接成气转化率的评价方法,2017.10.13授权,国家发明专利,ZL201510119268.1;
陈国辉,卢双舫,张光武,李进步,田善思,李吉君,陈方文,王民,薛海涛,王新,田伟超,梁宏儒. 一种精确测量甲烷在页岩上吸附相密度的方法,2017.5.17授权,国家发明专利,ZL201510114441.9;
陈国辉,卢双舫,李进步,田善思,薛海涛 ,王民,穆国栋,颜鑫桐,卢志鑫,王新,沈珊. 一种净油累积转化率的评价方法,2016.7.13授权,国家发明专利,ZL201510119705.X;
陈国辉,卢双舫,李进步,李晓光,单俊峰 ,胡英杰,薛海涛,王民,肖佃师,田善思,毛俊利,韩霞,王新,沈珊. 一种烃源岩原始裂解潜力恢复的方法,2015.11.18授权,国家发明专利,ZL201410439738.8;
李文镖, 卢双舫, 李俊乾, 张俊, 魏永波, 冯文俊, 宋兆京, 林子智. 基于碳同位素分馏的页岩原位含气参数确定方法及系统, 国家发明专利, 专利号: ZL202011013993.8.
李文镖, 卢双舫, 李俊乾, 张鹏飞, 王子轶, 李霄, 魏永波, 宋兆京, 郅琪. 一种多尺度岩心吸附-解析-开采模拟实验装置及方法, 国家发明专利, 专利号: ZL202110254289.X.
李文镖, 王峻, 卢双舫, 张鹏飞, 周能武. 一种页岩气/煤层气井产能评价方法、系统及电子设备. 国家发明专利, 专利号: ZL202310119422.X.
李俊乾, 李文镖, 卢双舫, 张鹏飞, 王思远, 冯文俊. 一种页岩孔隙水吸附量、游离量及其分布的评价方法, 国家发明专利, 专利号: ZL201910219913.5.
周能武,卢双舫,姜新雨,李柏知,刘阳,李文镖.富有机质泥页岩的四端元岩相划分方法、系统及介质[P]. 海南省:CN202211557446.5
李霄, 卢双舫, 李文镖, 宋兆京, 王峻, 王子轶. 保压取心后的连续解析模拟装置及原位含气量计算方法, 国家发明专利, 已授权.
姜民政,王素玲,董康兴,程天才,冯子明,徐书凡,夏法锋.一种一体化潜油直驱螺杆泵,ZL201710846911.X,发明专利,2019.02.
姜民政,王素玲,董康兴,等.一种抽油机井光杆自动旋转装置,ZL201810615150.1,发明专利,20191213
姜民政,冯子明,董康兴,等.自洗式防沉砂小排量抽油泵,ZL201610103521.9,发明专利,20171020.
王素玲,董康兴,卢秋羽,宋微,陈明站,李金波.一种自密封减阻防卡抽油泵,ZL201810955417.1,发明专利,2019.11.
王素玲,姜民政,刘伟,等. 一种用于抽油泵的排气防砂装置, CN201910882991, 发明专利,2021.10.29
王素玲,姜民政,董康兴,等.一种致密岩水力压裂实验样品制备方法,ZL201711333560.9,发明专利,20200512
董康兴,姜民政,王素玲,程天才,徐书凡,李葳. 一种抽油机井光杆自动旋转装置,ZL201810615150.1,发明专利,2019.12.
董康兴,王素玲,宋微,姜民政,冯子明,宋健.一种包裹式不同层理角度人造岩心及其制作方法,ZL 201810191697.3,发明专利,2021.08.
刘合,王素玲,李金波,姜民政,温鹏云,等. 一种水平井原位监测保真连续取心工具,CN 112012685 B,发明专利,20210813
刘合,王素玲,程天才,李金波,温鹏云,等.一种自补偿式原位钻井取芯与测试装置,CN 113202434 B,发明专利, 20211217