卢双舫,男,1962年6月出生,湖北天门人。二级教授,博士生导师。
1983年江汉石油学院石油地质专业学士毕业,1986年大庆石油学院硕士毕业并留校任教。
1993年中国石油勘探开发研究院博士毕业。
1988年2~6月和2000年5~11月先后赴澳大利亚Cutin工大和美国TEXAS A&M大学访学进修。
1994年晋职副教授,1996年破格晋升教授,1998年被中国石油天然气总公司评为博士生导师。
2012年9月-2022年7月中国石油大学(华东)工作。
2022年7月起,受聘澳门新葡平台网址8883官网三亚海洋油气研究院、非常规油气研究院、澳门新葡官网进入网站888工作。
发表论文
1.卢双舫,王峻,李文镖, 曹怿昕, 陈方文, 李吉君, 薛海涛, 王民,从能耗比论低熟富有机质页岩原位改质转化的经济可行性及增效途径,地学前缘,2022,29(6)
2. 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)
3.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
4.Wenbiao Li, Junqian Li*, Shuangfang Lu*, Guohui Chen, Xiaoting Pang, Pengfei Zhang,Taohua He, 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,2022,249,103881
5.Huijun Wang, Lu Qiao, Shuangfang Lu*, Fangwen Chen, Zhixiong Fang, Xipeng He, Jun Zhang, Taohua He .A Novel Shale Gas Production Prediction Model Based on Machine Learning and Its Application in Optimization of Multistage Fractured Horizontal Wells. Frontiers in Earth Science,2021,9: 726537
6.Taohua He, Wenhao Li*, Shuangfang Lu*, Wenqing Pan, Junfeng Ying, Pengfei Zhu, Erqiang Yang, Xiuzhe Wang, Baoshou Zhang, Dongquan Sun,Mechanism and geological significance of anomalous negative δ13Ckerogen in the Lower Cambrian, NW Tarim Basin, China. Journal of Petroleum Science and Engineering, 2001,208: 109384
7.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
8.Tian, Weichao; Lu, Shuangfang*; Li, Jie; Wang, Weiming; Li, Jijun; Wen, Zhigang, Insights into the pore structure and pore development pattern of subaqueous volcanic rocks in the Santanghu Basin, western China ,Marine and Petroleum Geology.2021,135, 105387
9.Dianshi Xiao, Shuangfang Lu*, Mingli Shao, Nengwu Zhou, Renwen Zhao, and Yue Peng,Comparison of Marine and Continental Shale Gas Reservoirs and Their Gas-Bearing Properties in China: The Examples of the Longmaxi and Shahezi Shales,Energy & Fuels,2021,35 (5), 4029-4043
10.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
11.Yongbo Wei, Shuangfang Lu*, Junqian Li*, Rongze Yu, Wenbiao Li, Feng Cheng, Chunbo Fu, Tianlong Zhao, Wenjun Feng, Zhaojing Song,Impacts of gas pressure on carbon isotope fractionation during methane degassing—An experimental study on shales from Wufeng and Longmaxi Formations in southeast Sichuan, China. Marine and Petroleum Geology,2021,128, 105001
12.Yongbo Wei, Junqian Li*, Yijing Du, Shuangfang Lu*, Wenbiao Li, Jie Yang, Wenjun Feng, Zhaojing Song, Yu Zhang,Classification Evaluation of Gas Shales Based on High-Pressure Mercury Injection: A Case Study on Wufeng and Longmaxi Formations in Southeast Sichuan, China.Energy & Fuels,2021,35, 9382-9395
13.Yongbo Wei,Xiaoyan Li, Ruifeng Zhang, Xiaodong Li, Shuangfang Lu*, Yan Qiu, Tao Jiang, Yuan Gao, Tiedong Zhao, Zhaojing Song, Meihong Zhao, Influence of a Paleosedimentary Environment on Shale Oil Enrichment: A Case Study on the Shahejie Formation of Raoyang Sag, Bohai Bay Basin, China, Frontiers in Earth Science.2021, 9, 736054
14.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
15.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
16.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
17.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)
18.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,2020,114:14210
19.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, China Energy Exploration & Exploitation,2020,38(3):613-628
20.Taohua He, Shuangfang Lu*,et al;Paleoweathering, hydrothermal activity and organic matter enrichment during the formation of earliest Cambrian black strata in the northwest Tarim Basin, China.Journal of Petroleum Science and Engineering,2020,189
21.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
22.Weichao Tian, Shuangfang Lu*,et al;Quantifying the control of pore types on fluid mobility in low-permeability conglomerates by integrating various experiments,FUEL,2020,275, 117835
23.Nengwu Zhou, Shuangfang Lu*,et al;Applicability of fractal capillary pressure models to sandstones Journal of Petroleum Science and Engineering,2020,106626
24.Luchuan Zhang, Shu Jiang, Dianshi Xiao*, Shuangfang Lu*,et al;Controls on Pore Structures and Permeability of Tight Gas Reservoirs in the Xujiaweizi Rift, Northern Songliao Basin,Energies,2020, 13(19), 5184
25.Luchuan Zhang, Dianshi Xiao*,, Shuangfang Lu*,et al;Pore development of the Lower Longmaxi shale in the southeastern Sichuan Basin and its adjacent areas: Insights from lithofacies identification and organic matter,Marine and Petroleum Geology,2020,122, 104662
26.Jinbu Li, Chunqing Jiang, Min Wang*, Shuangfang Lu**,et al;Adsorbed and free hydrocarbons in unconventional shale reservoir: A new insight from NMR T1-T2 maps,Marine and Petroleum Geology,2020,116: 104311I
27.Jinbu Li, Min Wang*, Shuangfang Lu**,et al,A new method for predicting sweet spots of shale oil using conventional well logs,Marine and Petroleum Geology,2020,113:104097
28.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
29.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)
30.Lu, Shuangfang; Li, Jijun; Xue, Haitao; Chen, Fangwen; Xu, Qingxia; Wang, Min; Li, Wenbiao; Pang, Xiaoting Pyrolytic Gaseous Hydrocarbon Generation and the Kinetics of Carbon Isotope Fractionation in Representative Model Compounds With Different Chemical Structures. GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS,2019
31.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)
32.卢双舫,沈博健,许晨曦,陈国辉,刘可禹,薛庆忠,方志雄,何希鹏,利用GCMC分子模拟技术研究页岩气的吸附行为和机理,地球科学,2018,43(5):1783-1791
33.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
34.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
35.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
36.卢双舫,谷美维,张飞飞,张鲁川,肖佃师,2017,徐家围子断陷沙河子组致密砂砾岩气藏的成藏期次及类型划分,天然气工业, 37 (6)
37.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
38.卢双舫,陈国辉,王民,李进步,王新,单俊峰,胡英杰,毛俊莉,辽河坳陷大民屯凹陷沙河街组四段页岩油富集资源潜力评价[J],石油与天然气地质, 2016, 37(1):8-14.
39.卢双舫,张亚念,李俊乾,琚宜文, 2016,纳米技术在非常规油气勘探开发中的应用,矿物岩石地球化学通报,35(1),28-36
40.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.
41.卢双舫,黄文彪,陈方文,李吉君,王民,薛海涛,等, CLASSIFICATION AND EVALUATION CRITERIA OF SHALE OIL AND GAS RESOURCES : DISCUSSION AND PRIMARY APPLICATION(页岩油气资源分级评价标准探讨)PETROLEUM EXPLORATION &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
42.卢双舫,马延伶,曹瑞成,李吉君,等,优质烃源岩评价标准及其应用:以海拉尔盆地乌尔逊凹陷为例,地球科学(中国地质大学学报),2012,9(1),535-544
43.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.
44.Wenbiao Li; Shuangfang Lu* ; Junqian Li*; Yongbo Wei; Wenjun Feng; Pengfei Zhang; Zhaojing Song, Geochemical modeling of carbon isotope fractionation during methane transport in tight sedimentary rocks, Chemical Geology, 2021, 563: 120033
45.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.
46.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
47.李文镖,卢双舫,李俊乾*,张鹏飞,陈晨,王思远,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
48.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
49.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
50.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
51.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
52.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.
53.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.
54.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
55.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
56.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
57.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.
58.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.
59.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
60.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, China Energy Exploration & Exploitation,38(3):2020, 613-628
61.Zhang Pengfei; Lu Shuangfang*; Li Junqian,Characterization of pore size distributions of shale oil reservoirs: A case study from Dongying sag, Bohai Bay basin, China. Marine and Petroleum Geology,2019
62.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
63.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
64.Pengfei Zhang, Shuangfang Lu*, Junqian Li*, Jie Zhang, Haitao Xue, Chen Chen. Permeability evaluation on oil-window shale based on hydraulic flow unit: A new approach. Advances in Geo-Energy Research, 2018, 2(1): 1-13.
65.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
66.Zhang Pengfei, Lu Shuangfang*, Li Junqian*, Zhang Jie, Xue Haitao, Chen Chen,2017,Comparisons of SEM, Low-Field NMR, and Mercury Intrusion Capillary Pressure in Characterization of the Pore Size Distribution of Lacustrine Shale: A case study on the Dongying Depression, Bobai Bay Basin, China. Energy & Fuels,31,9232-9239
67.Zhang Pengfei, Lu Shuangfang*, Li Junqian, Zhang Ping, Xie Liujuan, Xue Haitao, Zhang Jie., 2017. Multi-components segmentation of X-ray computed tomography (CT) by multi-Otsu thresholding algorithm and scanning electron microscopy. Energy Exploration & Exploitation. 35: 281-294.
68.Zhang Pengfei, Li Junqian, Lu Shuangfang*, Xue Haitao, Zhang Jie, Yang Jinxiu., 2017. A precise porosity measurement method for oil-bearing shales using low-field nuclear magnetic resonance (LF-NMR) [J]. Journal of Nanoscience and Nanotechnology. 17: 6827-6835.
69.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.
70.Zhang, L., Lu, Shuangfang,* Jiang, S.,* Xiao, D.,* Chen, L., Liu, Y., Zhang, Y., Li, B., Gong, C. (2018). Effect of shale lithofacies on pore structure of the Wufeng-Longmaxi shale in the southeast Chongqing, China. Energy & Fuels, 2018, 32, 6603-6618.
71.Zhang, L., Li, B., Jiang, S., Xiao, D.,* Lu, Shuangfang,* Zhang, Y., Gong, C., Chen, L. (2018). Heterogeneity characterization of the lower Silurian Longmaxi marine shale in the Pengshui area, South China. International Journal of Coal Geology, 195, 250-266.
72.Zhang, Luchuan; Xiao, Dianshi*; Lu, Shuangfang*; Jiang, Shu*,Effect of sedimentary environment on the formation of organic-rich marine shale: Insights from major/trace elements and shale composition,International Journal of Coal Geology,2019,204, 34-50
73.Luchuan Zhang, Shu Jiang, Dianshi Xiao*, Shuangfang Lu*,et al;Controls on Pore Structures and Permeability of Tight Gas Reservoirs in the Xujiaweizi Rift, Northern Songliao Basin Energies, 2020, 13(19), 5184
74.Luchuan Zhang, Dianshi Xiao*,, Shuangfang Lu*,et al;Pore development of the Lower Longmaxi shale in the southeastern Sichuan Basin and its adjacent areas: Insights from lithofacies identification and organic matter Marine and Petroleum Geology, 2020, 122, 104662
75.Luchuan Zhang,Shuangfang Lu* , Dianshi Xiao,Meiwei Gu,2017,Characterization of full pore size distribution and its significance to macroscopic physical parameters in tight glutenites,Journal of Natural Gas Science and Engineering,38, 434-449.
76.Luchuan Zhang, Shuangfang Lu*, Dianshi Xiao*, Bo Li,2017,Pore structure characteristics of tight sandstones in the northern Songliao Basin, China,Marine and Petroleum Geology,88,170-180
77.Jinbu Li, Chunqing Jiang, Min Wang*, Shuangfang Lu*,et al;Adsorbed and free hydrocarbons in unconventional shale reservoir: A new insight from NMR T1-T2 maps Marine and Petroleum Geology, 2020, 116: 104311
78.Jinbu Li, Min Wang*, Shuangfang Lu*,et al;A new method for predicting sweet spots of shale oil using conventional well logs,Marine and Petroleum Geology, 2020, 113:104097
79.Jinbu Li, Shuangfang Lu*, Chunqing Jiang, Min Wang*, Zhuoheng Chen, Guohui Chen, Jijun Li, Shudong LuCharacterization of shale pore size distribution by NMR considering the influence of shale skeleton signals,Energy & Fuels,2019,33 (7):6361-6372
80.Jinbu Li, Min Wang*, Zhuoheng Chen, Shuangfang Lu*, Chunqing Jiang, Guohui Chen, Shansi Tian Evaluating the total oil yield using a single routine Rock-Eval experiment on as-received shales Journal of Analytical and Applied Pyrolysis,2019,144:104707
81.Jinbu Li, Shuangfang Lu*, Guohui Chen**, Min Wang, Shansi Tian, Zhiqiang Guo A new method for measuring shale porosity with low-field nuclear magnetic resonance considering non-fluid signals Marine and Petroleum Geology,2019,102:535-543
82.Jinbu Li, Shuangfang Lu*, Min Wang**, Guohui Chen, Weichao Tian, Chenxue Jiao A novel approach to the quantitative evaluation of the mineral composition, porosity, and kerogen content of shale using conventional logs: A case study of the Damintun Sag in the Bohai Bay Basin, China,Interpretation,2019,7 (1): T83-T95
83.Jinbu Li, Wenbiao Huang*, Shuangfang Lu*, Min Wang, Guohui Chen, Weichao Tian, Zhiqiang Guo. 2018. Nuclear Magnetic Resonance T 1–T 2 Map Division Method for Hydrogen-Bearing Components in Continental Shale[J]. Energy & Fuels, 32(9): 9043-9054.
一、科研获奖(省部级二等奖以上)
1.卢双舫,薛海涛,王民,李吉君,陈方文,黄文彪,肖佃师等,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。
2.卢双舫,李吉君,王民,马锋,薛海涛,张三盛,黄文彪,肖佃师等,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。
3.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。
4.卢双舫,薛海涛,李吉君,王民,李贤丽,于润涛等,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。
5.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。
6.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。
7.黄第藩,秦匡宗,王铁冠,张大江,卢双舫,等,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。
8.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, 19990931。
二、荣誉称号
1.2007年,资源勘查工程黑龙江省级教学团队负责人
2.2008年,资源勘查工程国家特色专业负责人
3.1997年,中国青年科技奖
4.1999年,国家百千万人才工程第一二层次人选
5.2004年,国务院政府特殊津贴
6.2005年,教育部新世纪优秀人才
7.2007年,全国模范教师
8.2000年,黑龙江省杰出青年基金
9.2003年,黑龙江省首批特聘教授(龙江学者)
10.2008年,黑龙江省教学名师
11.2010年,黑龙江省优秀研究生导师
12.2002年,“矿产普查与勘探”省重点学科带头人
13.1998年,黑龙江省优秀中青年专家
14.2000年,黑龙江省院士之外的首批7名中央直接掌握和联系的专家之一
15.2007年,黑龙江省副省级以上领导直接联系专家
16.2000年,石油天然气总公司优秀共产党员
17.1998年,黑龙江省青年科技奖
18.1997年,孙越崎青年科技奖
19.1999年,黑龙江省优秀科技工作者
20.2001年,黑龙江省高校优秀共产党员
三、教学获奖
1.2011年,资源勘查工程专业培养方案的改革与实践,获黑龙江省高等教育教学成果二等奖,卢双舫(第1)
2.2010年,“油气地球化学”教材获中国石油石油化工学会优秀教材一等奖,卢双舫,张敏
3.2009年,“油气地球化学”教材获中国石油高等教育(2004-2009)优秀教材奖,卢双舫,张敏
4.2009年,黑龙江省高等教育教学成果一等奖,石油石化类应用型人才实践能力培养与改革实践,刘永健,卢双舫等
5.2009年,“石油地质学”精品课建设,黑龙江省高等教育教学成果二等奖,卢双舫等
6.2008年,黑龙江省高等学校教学名师,卢双舫
7.2003年,“石油地质学”黑龙江省首批精品课,卢双舫等
8.2004年,“沉积岩石学”黑龙江省精品课,马世忠,柳成志,卢双舫等
9.2007年,“资源勘查工程”教学团队为黑龙江省优秀教学团队,卢双舫等
10.2008年,“资源勘查工程”专业成为国家第一类特色专业,卢双舫等
11.2007年,黑龙江省高等教育教学成果一等奖,高校教务管理规范化信息化的建设的研究与实践,贾焕军,卢双舫,马云阔,刘洪波,宋英
12.1993年,黑龙江省优秀教学成果二等奖,使用英文原版教材,全面提高专业课教学质量,刘晓艳,王子文,卢双舫
一、教学
1.石油地质学,本科专业课, 64学时
2.油气地球化学,本科生课程,48学时
3.沉积岩石学,本科生课程,64学时
4.油气田开发地质基础,本科专业基础课,48学时
5.有机地球化学进展,硕研专业课, 40学时
6.油气藏地球化学,硕研专业课, 40学时
7.石油地学前缘,博研专业课, 4学时
8.油藏描述新进展,博研专业课, 40学时
从1994年开始招收硕士生、1999年开始招收博士生以来,共招收硕士生157名,博士生51名,博士后10名。目前在读博士生8名,硕士生8名。
2017年以来毕业的9名博士生,由于成果突出,全部进入高校工作,约三分之二获得省部级优秀博士论文。其中3人获得博士后创新人才计划支持,3人直接受聘特任教授,2人直接受聘特任副教授。
出版详情:
1.卢双舫,薛海涛等:页岩油的形成条件、赋存机理与富集分布,348页,北京:石油工业出版社,2020;(国家十三五重点图书,国家出版基金资助图书:卢双舫,薛海涛,印兴耀,倪红坚,冯其红等,页岩油勘探开发理论与技术丛书:第一册)
2.张鹏飞,卢双舫:页岩油储集、赋存与可流动性的核磁共振一体化表征,196页,北京:石油工业出版社,2021(国家十三五重点图书,国家出版基金资助图书:卢双舫,薛海涛,印兴耀,倪红坚,冯其红等,页岩油勘探开发理论与技术丛书:第三册)
3.卢双舫,薛海涛,李吉君,徐庆霞,王民,天然气碳氢同位素分馏的化学动力学及其应用,石油工业出版社,2010,共230页
4.卢双舫,付广,王朋岩等,天然气富集主控因素的定量研究,石油工业出版社,2002,共230页
5.卢双舫,有机质成烃动力学理论及其应用,石油工业出版社,1996,共128页
6.卢双舫,张敏主编,油气地球化学,石油工业出版社,第一版,2008,320页;第二版,2017年,380页
7.赵孟军,周兴熙,卢双舫等,塔里木盆地天然气分布规律及勘探方向,石油工业出版社,2002
8.赵孟军,卢双舫等,塔里木盆地天然气成藏与勘探,2003,石油工业出版社
9.Junqian Li ; Shuangfang Lu *; Dameng Liu; Jianchao Cai;Chapter 14: Dynamic gas flow in coals and its evaluation. Petrophysical Characterization and Fluids Transport in Unconventional Reservoirs, Elsevier, 2019.
二、科研
一)国家级
1.国家自然科学基金,42272156,非常规油气地质-工程-经济一体化运筹学优化决策,2023/01-2026/12,57万元
2.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
3.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
4.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
5.十三五国家油气重大专项, 2017ZX05070-01,砂砾岩致密油示范区有利储层优选及建模,2017ZX05070-01, 308.6万元,2017-2020
6.十三五国家油气重大专项, 2016ZX05061-003-001, 页岩气储层定量表征与“甜点区”评价, 2016-2020, 240万元
7.十三五国家油气重大专项, 2016ZX05046-001-005, 致密油充注聚集机理与模式研究, 2016-2020, 137.4 万元
二)省部级
8.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
9.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
10.黑龙江省揭榜挂帅项目,古龙页岩滞留成藏机制及资源评价系统研发,2021.07-2024.07.460万
11.中石化,南川复杂构造带页岩气勘探开发关键技术,2019-2021,280万元
12.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
13.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
14.中石化基础研究,2016-2017,致密储层成储下限及分级评价标准,2014-2016, 99万
15.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
三)其他
17.新疆油田攻关研究项目,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
18.西南油气田,川南龙马溪组储层压力形成及聚散机理研究,2022-2023,80万
19.江汉油田,红星地区二叠系页岩气优质储层形成机制研究,2022-2023,19.3万
20.西南油气田,四川盆地侏罗系页岩油甜点评价,2021-2022,98万
21.西南油气田,页岩气解析过程中的同位素分馏效应及其应用,2020-2021,70万
22.苏江苏油田,北盆地致密砂岩定量表征与储层分级评价研究,2021-2022,88万
23.华北油田,饶阳凹陷页岩油富集规律与甜点区,2020-2021, 129.5万
24.大庆油田,徐家围子断陷沙河子组致密气形成机理研究, 2019-2020, 247.2万元
25.大庆油田,2017.11-2019.12,龙虎泡-齐家地区高台子油层致密油储层微观特征及渗流机理研究,111.188万
26.岑巩区块海相高演化页岩气勘查评价应用试,铜仁中能天然气有限公司,2017-2020,60万
27.江汉油田,涪陵页岩气田页岩气赋存机理,2017-2018,83万
28.贵州铜仁天然气有限公司,2017.06-2018.6,振动对海相高演化页岩物性的影响测试-2,68万元
29.华北油田,2014-2016,冀中坳陷致密油储层特征、控制因素及成藏影响研究,149.6万
30.吉林油田,2015-2016,柳河盆地柳参1井单井地质综合评价,73.35万
31.中石油勘探开发研究院,2013-2014,麦凯河油砂区块层序地层及沉积体系研究,120万
32.中石油勘探开发研究院,2014-2015,安第斯项目Dorine-Fanny油田沉积微相和储层精细描述,74.5万
33.中石油勘探开发研究院,2015-2016,安第斯项目JohannaEast和AliceWest油田M1层沉积微相和地质建模研究
34.吉林油田,吉林探区重点探井单井评价(伊69井、昌古1井、昌27井),2012, 80万
35.吉林油田,红岗北水平井开发目标区精细地质建模及数值模拟研究,2013-2014,70万元
36.吉林油田,2013-2014,松南扶余油层致密油成藏规律研究,91.2万元
37.江汉油田,江汉盆地新沟嘴组泥质白云岩油藏成藏及富集规律研究,2013/08-2014/08,75万元
38.中国石化华东分公司,彭水-南川区块龙马溪组页岩储层特征、储气机理及定量表征研究,2013-2014,99万元
39. 大庆油田,2014-2015,徐家围子断陷沙河子组致密砂砾岩储层微观结构特征,80万
40.大庆油田呼伦贝尔分公司,苏仁诺尔老油田地质特征再认识及滚动评价潜力研究,2014-2015,61.7万
41.吐哈油田,2015,吐哈-三塘湖盆地特殊储层压汞综合实验,89万
42.大庆采油十厂,朝1-朝气3区块井震结合精细油藏描述,2015-2016,63.6万
43.大庆采油七厂,敖包塔油田葡32-敖9区块精细储层预测及开发有利区优选,2015-2016,90万
44.大庆油田,松辽盆地北部中浅层非常规油气资源评价,2011-2013,178.31万
45.大庆采油十厂,朝44南区块精细数值模拟研究,2015-2016,70万元
46.大庆油田,徐家围子断陷深层火山岩油气藏运聚成藏模拟研究,2012-2013, 137.55万元
47.江苏油田,苏北盆地致密砂岩定量表征与储层分级评价,2014-2015,48万元
48.大庆油田,肇州凹陷沙河子组成藏条件分析,2012-2013,198万元
49.吐哈油田,吐哈盆地致密砂岩油气储量计算方法与参数研究,2012-2013,126万元
50.辽河油田,2012-2013,大民屯凹陷沙河街组页岩油形成条件及有利区带优选,75万元
51.辽河油田,2013-2014,大民屯凹陷沙四段致密油成藏机理研究及资源评价,72万
52.大庆采油九厂,古龙油田油水分布规律研究,90万元,2013-2014
53.中石油勘探开发研究院,成烃动力学油气资源评价软件许可合同,2015-2016,29万
54.大庆油田采油九厂,龙26、齐平2区块致密油渗流机理及产能预测,2014-2015,69万
55.大庆油田采油九厂,基于数字岩心致密油藏能量补充方法研究,2015-2017,78万
lushuangfang@nepu.edu.cn