一、个人简介
魏建光教授(博导),黑龙江省高层次科技人才,东北石油大学非常规油气研究院副院长,“陆相页岩油成藏机理及高效开发”教育部重点实验室副主任,黑龙江省第一批“揭榜挂帅”科技攻关项目“古龙页岩油压驱机理研究”和“CO2增能助排渗吸置换提高产能方法及优化研究”获得者,黑龙江省第二批“揭榜挂帅”科技攻关项目“缝网压裂致密储层与二氧化碳结合提高采收率机理”获得者,第一届全国博士后创新大赛“页岩油压裂-增能-渗吸一体化高效开发技术”银奖获得者,第一批大庆古龙页岩油高端合作项目“古龙页岩油储层渗流特征与动用机理研究”获得者。国家自然科学基金评审专家、《世界石油工艺》与《地质科技通报》编委、《石油勘探与开发》和《Petroleum Science》期刊审稿人。
长期从事非常规油气储层储集空间定量表征及渗流特征研究、非常规油气动用机理及高效开发、CO2提高采收率原理与技术、页岩油/致密油储层多尺度流动模型、可动性评价及生产制度优化方法等领域方向研究。研制了一种致密储层岩心静态加压渗吸可视化实验装置,发明了页岩油储层对外来流体敏感性评价方法,首次揭示了大庆古龙页岩油渗流特征及动用机理,首创页岩油压裂-增能-渗吸一体化高效开发技术,创建了致密油储层井-缝优化设计与增能协同高效开发模式。主持国家自然科学基金项目1项,国家科技重大专项子课题2项,黑龙江省重大项目2项,厅级项目30余项;发表论文100余篇(SCI检索55篇、EI检索30篇),取得授权发明专利30余项、软件著作权8项。获国家级二等奖1项与省部级一等奖4项。
二、受教育及工作经历
魏建光2003年7月毕业于中国石油大学(华东)石油工程获学士学位;同年9月考上中国石油大学(北京)油气井工程专业硕博连读研究生,主要研究方向为复杂结构井渗流机理与完井优化设计技术;2009年7月毕业于中国石油大学(北京)油气井工程专业获博士学位;同年9月进入大庆油田有限责任公司博士后工作站,主要研究方向为化学驱提高采收率技术;2011年应邀到The University of Tulsa和Texas A&M University访问学习。2012年5月到东北石油大学石油工程学院工作,2017年12月到东北石油大学非常规油气研究院任页岩油高效开发中心主任,2019年4月任“陆相页岩油成藏机理及高效开发”教育部重点实验室副主任,2021年5月任东北石油大学非常规油气研究院副院长。
三、其他学术兼职(或职务)及荣誉
1、国家自然科学基金通讯评议专家
2、《石油勘探与开发》和《Petroleum Science》期刊审稿人
3、大庆油田有限责任公司高层次科技创新人才
4、《东北石油大学学报》青年编委
5、《地质科技通报》编委
6、《世界石油工艺》编委
7、东北石油大学页岩油检测中心国家CMA质量负责人
四、承担的主要科研项目
1、国家自然科学基金委员会,面上项目,51474070,考虑污染条件下页岩气储层气-水两相渗流机理研究,2015-01至2018-12,主持
2、黑龙江省科技厅,黑龙江省“揭榜挂帅”科技攻关项目,古龙页岩油压驱机理研究,2022-01至2024-12,主持
3、黑龙江省科技厅,黑龙江省“揭榜挂帅”科技攻关项目,CO2增能助排渗吸置换提高产能方法及优化研究,2022-01至2024-12,主持
4、黑龙江省科技厅,黑龙江省“揭榜挂帅”科技攻关项目,缝网压裂致密储层与二氧化碳结合提高采收率机理,2023-07至2026-07,主持
5、黑龙江省自然科学基金委员会,面上项目,D2015008,聚合物溶液在油层中的工作粘度变化规律研究,2015-7至2018-7,主持。
6、国家“十三五”科技重大专项子课题(2016ZX05044005-001)“多煤层合采全过程流动机理及产能预测”,2016.1-2020.12,主持
7、国家“十二五”科技重大专项子课题(2011ZX05009-005)“低渗透油气高效开发井完井优化设计与控制技术”,2011.1-2015.10,主持
8、国家“十三五”科技重大专项子课题(2016ZX05023-005-001-003)“大型压裂过程复合压裂液体系提高采收率机理”,2016.1-2018.12,主持
9、大庆油田有限责任公司,局级项目,第一批大庆古龙页岩油高端合作项目,DQYT-2020-JS-50560,古龙页岩油储层渗流特征与动用机理研究,2020-12至2022-09,主持
10、大庆油田有限责任公司,局级项目,DQYT-1201002- 2019-JS-93,大庆外围油田致密储层综合室内实验评价研究,2019-02至2020-07,主持
11、大庆油田有限责任公司,局级项目,DQYT-1201002- 2018-JS-246,低渗油藏改性水二氧化碳交替注入改善开发效果研究,2018-05至2019-04,主持
12、大庆油田有限责任公司,局级项目,DQYT-2019-JS-944,苏托尔明斯克油田二元体系注入参数优化及剩余油微观评价研究(俄罗斯项目),2019-10至2020-6,主持
13、大庆油田有限责任公司,局级项目,DQYT-2019-JS-945,苏托尔明斯克油田抗盐聚合物及二元体系注入能力评价实验研究(俄罗斯项目),2019-10至2020-6,主持
14、大庆油田有限责任公司采油工程研究院,局级项目,DQYT-1204003- 2018 -JS-895,动态条件下调堵剂运移规律研究,2018-12至2020-09,主持。
15、中国石油天然气股份有限公司辽河油田分公司,局级课题,LHYT- KTKFYJY-2022-JS-5026,页岩油储层孔隙结构表征及渗流特征数字岩心数值模拟研究,2022-09至2022-12,主持。
16、中国石油天然气股份有限公司辽河油田分公司,局级课题,LHYT- KTKFYJY-2022-JS-7636,辽河油田重点领域中低成熟度页岩油储层渗流特征及动用机理研究,2022-12至2023-08,主持。
17、中国石油天然气股份有限公司辽河油田分公司,局级课题,LHYT- KTKFYJY-2022-JS-7636,辽河油田重点领域中低成熟度页岩多尺度流动及生产制度优化研究,2023-02至2023-12,主持。
18、中石化胜利油田勘探开发研究院,局级课题,30200018-22-FW2099-0078,基质型页岩油高温高压渗吸置换测试,2022.09至2022.12,主持。
19、中石化胜利油田勘探开发研究院,局级课题,30200018-22-FW2099-0088,页岩油储层对外来流体和应力敏感性评价研究,2022.12至2023.12,主持。
20、中石油煤层气公司工程技术研究院,局级项目,GCY21026CC01,深层8#煤压裂起裂机理及裂缝导流能力评价实验,2021.09至2021.12,主持。
21、中石油煤层气公司工程技术研究院,局级项目,GCY21027CC02,大宁-吉县区块海陆过渡相页岩气储层可压性评价实验,2021.10至2021.12,主持。
22、中石油煤层气公司工程技术研究院,局级项目,GCY22021CQ07,海陆过渡相页岩储层微观孔隙三维数字化重构及气水流动规律模拟,2022.09至2023.06,主持。
23、中国石油勘探开发研究院,局级项目,R2P20-LFH- 2016-SS-516,页岩气压裂后返排参数优化,2016-12至2017-07,主持
24、中国石油集团科学技术研究院有限公司,局级项目,RIPED.CN-2020- JS-243,储层岩心CO2驱油与埋存系数测定,2020-06至2020-08,主持
25、长庆油田分公司,局级项目,西233致密油可压性新型评价技术研究,2018-03至2018-12,主持。
26、长庆油田分公司,局级项目,20YL1- FW-025,安塞长8油藏压裂基础实验及工艺优化研究,2020-09至2021-10,主持
27、长庆油田分公司,局级项目,17YL1-FW- 001,麻黄山地区长6储层压裂地质特征及选层选段研究,2016-12至2017-11,主持
五、科技成果奖励
1、魏建光(排名第一),页岩油压裂-增能-渗吸一体化高效开发技术,人力资源和社会保障部,第一届全国博士后创新大赛,国家级二等奖,2021年
2、魏建光(排名第一),聚合物驱油注采驱动系统优化技术及工业化应用,中国石油与自动化应用协会,科技进步,省部一等奖,2017年
3、魏建光(排名第三),三元复合驱深度调驱技术及规模应用,中国石油与自动化应用协会,科技进步,省部一等奖,2018年
4、魏建光(排名第二);大庆长垣萨尔图油田油水过渡带综合挖潜关键技术及规模应用,中国石油与自动化应用协会,科技进步,省部一等奖,2020年
5、魏建光(排名第五);大庆外围特低渗油藏增能+驱替协同高效开发技术及应用,中国石油与自动化应用协会,技术发明奖,省部一等奖,2022年
六、发表论文情况
1、Jianguang Weiet al. Study on microscale pore structure and bedding fracture characteristics of shale oil reservoir[J]. Energy, 2023.(SCI一区TOP期刊)
2、Jianguang Weiet al.Experimental study on water flooding mechanism in low permeability oil reservoirs based on nuclear magnetic resonance technology[J]. Energy, 2023.(SCI一区TOP期刊)
3、Jianguang Weiet al.Frozen core experimental study on oil-water distribution characteristics at different stages of water flooding in low permeability oil reservoirs [J]. Energy, 2023.(SCI一区TOP期刊)
4、Jianguang Weiet al.Study on oil seepage mechanisms in lamellar shale by using the Lattice Boltzmann method [J]. Fuel, 2023.(SCI一区TOP期刊)
5、Jianguang Weiet al.Nuclear Magnetic Resonance Study on the Evolution of Oil Water Distribution in Multistage Pore Networks of Shale Oil reservoirs [J]. Energy, 2023.(SCI一区TOP期刊)
6、Jianguang Weiet al.Lithofacies influence characteristics on typical shale pore structure [J]. Energy, 2023.(SCI一区TOP期刊)
7、Jianguang Weiet al.Influence of shale bedding on development of microscale pores and fractures [J]. Energy, 2023.(SCI一区TOP期刊)
8、Jianguang Weiet al.Nuclear magnetic resonance study on imbibition and stress sensitivity of lamellar shale oil reservoir [J]. Energy, 2023.(SCI一区TOP期刊)
9、Jianguang Wei, Jiangtao Li, Ying Yang, Ao Zhang, Anlun Wang, Xiaofeng Zhou, Quanshu Zeng, Demiao Shang. Digital-Rock Construction of Shale Oil Reservoir and Microscopic Flow Behavior Characterization[J]. Processes. 2023; 11 (3):697.(SCI三区)
10、Wei Jianguang, Zhou Xiaofeng, Shi Xuedong, Gong Pengqi, Chen Yinghe, Wang Yue, Fu Ping, Yakushev V.S., Khaidina M.P., Zhang Dong, Zhou Runnan. Remaining oil distribution and recovery performances with waterflooding and surfactant-polymer flooding: An experimental investigation[J]. International Journal of Hydrogen Energy, 2022.(SCI二区TOP期刊)
11、Wei Jianguang,Wang Xian Jun,Fu Xiao Fei,Gong Peng Qi,Zhou Xiao Feng,Li Yu Wei,Yang Ying,Chen Ying He,Jia Bao,Wu Jie. Optimization of long-term fracture conductivity with quartz: An experimental investigation[J]. Frontiers in Energy Research,2022.(SCI四区)
12、Wei Jianguang, Chen Yinghe, Zhou Xiaofeng, Wang Long, Fu Ping, Yakushev V.S.,Khaidina M.P.,Zhang Dong,Shi Xuedong,Zhou Runnan. Experimental studies of surfactant-polymer flooding: An application case investigation[J]. International Journal of Hydrogen Energy,2022,47(77).(SCI二区TOP期刊)
13、Wei Jianguang, Zhang Xin, Li Jiangtao, et al.10-m long slim sandpack experiments to investigate gel system transport behaviors in porous media[J]. Korean Journal of Chemical Engineering, 2021, 38(10): 2009-2019(SCI四区)
14、Wei Jianguang,Li Jiangtao,Shi Xuedong,Zhou Runnan. Combination of alkali–surfactant–polymer flooding and horizontal wells to maximize the oil recovery for high water cut oil reservoir[J]. Energy Reports,2021,7.(SCI二区)
15、Wei Jianguang,Zhou Xiaofeng,Zhang Dong,Li Jiangtao. Laboratory Experimental Optimization of Gel Flooding Parameters to Enhance Oil Recovery during Field Applications.[J]. ACS omega,2021,6(23).(SCI三区)
16、Jianguang Wei, Jiumu Zhou, Jiangtao Li, Xiaofeng Zhou*, Wennan Dong, Ziyue Cheng. Experimental study on oil recovery mechanism of CO2associated enhancing oil recovery methods in low permeability reservoirs. Journal of Petroleum Science and Engineering. https://doi.org/10.1016/j.petrol.2020.108047. (SCI一区, TOP期刊)
17、Jianguang Wei, Xiaofeng Zhou*, Jiumu Zhou, et al. Recovery efficiency of tight oil reservoirs with different injection fluids: An experimental investigation of oil-water distribution feature. Journal of Petroleum Science and Engineering, 2020, 195. (SCI一区, TOP期刊)
18、Jianguang Wei, Xiaofeng Zhou*, Jiumu Zhou, Jiangtao Li, Anlun Wang. Experimental and simulation investigations of carbon storage associated with CO2EOR in low-permeability reservoir. International Journal of Greenhouse Gas Control. 2020, https://doi.org/10.1016/j.ijggc.2020.103203. (SCI二区)
19、Jianguang Wei, Xiaofeng Zhou*, Jiumu Zhou, et al. CO2Huff-n-Puff after Surfactant-Assisted Imbibition to Enhance Oil Recovery for Tight Oil Reservoirs, Energy & Fuels, 2020, 34, 6, 7058-7066. (SCI二区)
20、Jianguang Wei, Saipeng Huang*, Guangwei Hao, Jiangtao Li, Xiaofeng Zhou, Tong Gong, et al. A multi-perforation staged fracturing experimental study on hydraulic fracture initiation and propagation. Energy Exploration & Exploitation. 2020, 38(6):2466-2484. (SCI四区)
21、Jianguang Wei; Jiangtao Li; Xiaofeng Zhou; Xin Zhang; Effect of pressure and CO2content on the asphaltene precipitation in the light crude oil, Petroleum Science and Technology,2020.春,2020(38(2)): 116-123. (SCI四区)
22、Jiangguang Wei; Xiaofeng Zhou*; Xuebing Zhou; Study on formation seepage behavior and mechanism based on CT scanning for Ordovician carbonate rocks of Tarim basin, China, Fresenius Environmental BULLETIN,2019.冬季,2019(28(11)): 8266-8274. (SCI四区)
23、Wei Jianguang; Zhao Xin; Zhou Xiaofeng; Liu Xiangbin; Methodology for Estimating Strength and Elasticity of Granular Profile Control Agents used in ASP Water Flooding, Chemistry and Technology of Fuels and Oils,2019.夏季,2019(6(616)): 86-91.(SCI四区)
24、Wei Jianguang; Ren Xidong; Shao Hongyan; Ma Yuanyuan; Liu Xuemei; Lin Xuesong. Study on Complex Flow Law near Polymer Flooding Wellbores and Adaptability Evaluation of Shaped Charges. Geosystem Engineering , 2016, 5(19): 205-213. (EI收录)
25、Wei Jianguang; Yan Chuanliang. Sand Production Prediction in Pressure Depleted Reservoirs. Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu, 2015 ,1:49-53 (EI收录)
26、Jianguang Wei; Chuanliang Yan. Stability of Horizontal Coalbed Well. Electronic Journal of Geotechnical Engineering, 2015 ,4(20) :1285-1294. (EI收录)
27、Wei, Jianguang, Tao Jianwen, Xin Shuzhen, Zhang Qingjie, Zhang Xin, Wang Zhiming. A study on alkali consumption regularity in minerals of reservoirs during Alkali(NaoH)/Surfactant/Polymer flooding in Daqing oilfield. SPE Enhanced Oil Recovery Conference, 2011, 1: 42-50. (EI会议)
28、Wei Jianguang; Lin Xuesong; Liu Xuemei; Ma Yuanyuan;The Experimental and Model Study on Variable Mass Flow for Horizontal Wells With Perforated,Journal of Energy Resources Technology , Transactions of the ASME,2017.冬季,139(6): 1-18.(SCI四区)
29、Wei Jianguang;Chen Yongda and Chen Xi. Mechanism of Fracture Generation in the Hole and Research on Optimization Design of Drilling Fracture Parameters. Research Journal of Applied Sciences, Engineering and Technology, 2015, 5(11): 480-487.(SCI收录)
30、Jianguang Wei; Chuanliang Yan; Borehole Stability Analysis in Oil and Gas Drilling in Undrained Condition,Geomechanics and Engineering,2014.夏,2014(5(7)): 553-567.(SCI三区)
31、Chen Yinghe,Wei Jianguang, Hadavimoghaddam Fahimeh, Zhou Xiaofeng, Ostadhassan Mehdi, Zhao Xiaoqing, Gayubov Abdumalik, Li Jiangtao, Wang Anlun, Yang Ying, Shi Xuedong. Experimental study of oil recovery mechanisms during imbibition in tight sandstone with different fluid displacing agents under ambient and reservoir pressure[J]. Journal of Petroleum Science and Engineering,2023,220(PA).(SCI二区TOP期刊)
32、Yang Ying,Wei Jianguang, Zhu Weiping, Xu Dong, Bai Kunsen, Zhang Ao, Zhou Xiaofeng, Zeng Quanshu, Wang Anlun, Li Yuwei, Cui Likai. Pore structure sensitivity to external fluids for coal reservoir and fracturing initiation/ propagation mechanism by using T1~T2 NMR spectrum and physical simulation experiment[J].Energy Fuels. 2023, 37, 1, 222–236(SCI三区)
33、Li Jiangtao,Wei Jianguang, Ji Liang, et al. A non-empirical model for gas transfer through circular nanopores in unconventional gas reservoirs[J]. Journal of Petroleum Exploration and Production Technology, 2021(11):2217-2232(SCI四区)
34、Shi Xuedong,Wei Jianguang,Bo Huang,Zheng QingLong,Yi Fei,Yin Yuhan,Chen YuWei,Dong Mingda,Zhang Dongmei,Li Jiangtao,Zhou Xiaofeng. A novel model for oil recovery estimate in heterogeneous low-permeability and tight reservoirs with pseudo threshold pressure gradient[J]. Energy Reports,2021,7.(SCI二区)
35、Wang Long,Wei Jianguang,Chen Yinghe,Jia Shihua,Wang Yiling,Qiao Xudong,Xu Long. Injectability of Partially Hydrolyzed Polyacrylamide Solutions Improved by Anionic-Nonionic Surfactant in Medium and Low Permeability Reservoirs[J]. Energies,2022,15(19).(SCI四区)
36、Xiaofeng Zhou,Jianguang Wei*, Ao Zhang, Xin Zhang, Gen Rong, Yongda Chen; Determination of Reasonable Bottom-Hole Pressure in Unconventional Tight Oil Reservoirs: A Field Case Investigation[J].Lithosphere, 2022.(SCI二区)
37、Xiaofeng Zhou,Jianguang Wei*, Ying Yang, Shihao Le, Bao Jia, Demiao Shang, Baoping Pu, Zongxun Zhang, Yunfei Ma; The Effect of Alkaline on the Properties of Combination Flooding Agent During Long Distance Migration in Daqing Oilfield[J].Lithosphere, 2022.(SCI二区)
38、Zhou Xiaofeng,Wei Jianguang, Fahimeh Hadavimoghaddam, Chen Yongda, Chen Yinghe, Liu Songze, Pu Baoping. “Double Sweet Spot” Identification Method by Using Cluster Analysis of Well-Logged Petrophysical Properties of Facies: A Case Study of a Tight Sandstone Reservoir, Journal of Petroleum Science and Engineering, 2023, Accepted. (SCI二区, TOP期刊)
39、Li Jiangtao,Wei Jianguang, Ji Liang, et al. Influence of proppant physical properties on sand accumulation in hydraulic fractures [J]. Journal of Petroleum Exploration and Production Technology, 2022(12):1625-1632.(SCI四区)
40、Dong Dapeng,Wei Jianguang, Zhao Guozhong, Yang Ying, Song Ge, Zhou Xiaofeng, Li Fuquan, Yu Shaojun, Cui Huanqi, Wang Qingzhen, Fu Lanqing. Mechanisms and influencing factors of high-temperature and pressure huff-n-puff imbibition process in continental shale oil reservoirs[J], Journal of Energy Engineering, 2023. (SCI四区)
41、Shi Xuedong,Wei Jianguang,Bo Huang,Zheng QingLong,Yi Fei,Yin Yuhan,Chen YuWei,Dong Mingda,Zhang Dongmei,Li Jiangtao,Zhou Xiaofeng. A novel model for oil recovery estimate in heterogeneous low-permeability and tight reservoirs with pseudo threshold pressure gradient[J]. Energy Reports,2021,7.(SCI三区)
42、Dong Zhang;Jianguang Wei*;Runnan Zhou; Haiqiao Xu; Research on deep profile control technology of polymer gel with low hydrolytic degree, Materials Express, Vol. 9, No.9, 2019.(SCI四区)
43、Dong Zhang;Jianguang Wei*;Xinren Fang; Study on the variation of rock pore structure after polymer gel flooding, e-Polymers, 2020:20:32-38. (SCI四区)
44、Zhang, Dong;Wei, Jianguang*; Zhou Runnan; Investigation on the effect of active-polymers with different functional groups for EOR, e-Polymers, 2020:20:61-68. (SCI四区)
45、Cheng, Jiecheng,Wei Jianguang, Song Kaoping, Han Peihui. Study of remaining-oil distribution after polymer injection. Journal of Petroleum Technology, 2011, 63(01): 46-48. (SCI收录)
46、Zhiming, Wang,Jianguang Wei, Hui Jin. Partition perforation optimization for horizontal wells based on genetic algorithms. SPE Drilling and Completion, 2011, 26(01): 52-59. (SCI收录)
47、Wang Zhiming,Wei Jianguang, Zhang Jian, Gong Bin, Yan Haiyun. Optimization of perforation distribution for horizontal wells based on genetic algorithms. Petroleum Science, 2010, 7 (2): 232-238. (SCI收录)
48、Anlun Wang, Yinghe Chen,Jianguang Wei, Jiangtao Li, Xiaofeng Zhou. Experimental study on the mechanism of five point pattern refracturing for vertical & horizontal wells in low permeability and tight oil reservoirs. Energy, 2023. (SCI一区TOP期刊)
49、Jiangtao Li, Xiaofeng Zhou,Wei Jianguang, Xibao Liu, Abdumalik Gayubov, Sultanov Shamil. Cross-scale diffusion characteristics in microscale fractures of tight and shale gas reservoirs considering real gas–mixture–body diffusion–water film coupling, Energy,2023.(SCI一区TOP期刊)
50、Anlun Wang, Yinghe Chen,Jianguang Wei, et al. Effect of surfactant on oil displacement efficiency of imbibition/huff and puff in low permeability reservoirs[J], ENERGY SOURCES PART A, 2023(45):6274-6289.(SCI四区)
51、Anlun Wang, Xiaoqing Zhao,Jianguang Wei, Lisha Zhao, Guangliang An, Xiaofeng Zhou, Jiangtao Li, Xuedong Shi, Ying Yang, Gen Li. Characterization of residual oil distribution in sandstone by NMR: a microscopic view on oil recovery by miscible CO2 flooding [J]. Lithosphere, 2022.(SCI二区)
52、Runnan Zhou, Dong Zhang,Jianguang Wei. Experiment on the profile control effect of different strength gel systems in heterogeneous reservoir.[J]. Energy Reports, 2021.7(SCI二区)
53、Runnan Zhou, Huiying Zhong,Jianguang Wei, et al. Experiment on Scaling Mechanism of Strong Alkaline-Surfactant-Polymer in Sandstone Reservoir.[J]. ACS OMEGA.(SCI三区)
54、Zhou Runnan, Zhang Dong,Wei Jianguang. Experimental investigation on remaining oil distribution and recovery performances after different flooding methods[J]. Fuel,2022,322.(SCI一区)
55、Xiaofeng Zhou, Feng He,Jianguang Wei*. Anew method for rock fracability evaluation based on cluster analysis of logging petrophysical facies. Journal of Mining Science, Vol. 56, No. 5, 2020. (SCI四区)
56、Zhou Xiaofeng, Xu Guomin,Wei Jianguang*, et al. Concurrent-Separate Constant Pressure Water Injection Design Optimization Technique Considering the Threshold Pressure Gradient. IOP Conf. Ser.: Earth Environ. Sci., 2020, 459(3). IOP Conference Series: Earth and Environmental Science, 2020. (EI会议)
57、ZHOU Jiu-mu, WANG Yi-ling,WEI Jian-guang*, ZHOU Xiao-feng, LI Jiang-tao. Experimental study on key factors of CO2huff and puff in tight oil reservoir[A]. International field exploration and development conference 2020,Chengdu, September 23-25, 2020[C]: Springer Series in Geomechanics and Geoengineering, C2021. (EI会议)
58、Xin Shuzhen, Zhang Qingjie,Wei Jianguang, Chen Ying, Wang Rongjiu, Wang Jingbo, Wang Zhiming. The performance of polymer solution added with viscosity stabilizer and the evaluation of its oil displacement efficiency in Daqing oilfield. SPE Enhanced Oil Recovery Conference 2011, 2011, 1: 51-57. (EI收录)
59、Wang, Anlun,Yakushev, Vladimir S.,Wei, Jianguang,Zhou, Xiaofeng. Simplified Analytical Model for Performance Prediction of Multistage Fractured Horizontal Well in Unconventional Tight Gas Reservoirs Considering Non-Darcy Flow in Unstimulated Regions[J]. Arabian Journal for Science and Engineering,2021(prepublish).(SCI四区)
60、Zhou Runnan, Zhang Dong, Tao Jianwen,Wei Jianguang, Zhao Xiaoqing, Zhang Ao, Zhou Xiaofeng, Shi Xuedong. New insight to experimental study on pore structure of different type reservoirs during alkaline‐surfactant‐polymer flooding[J]. Energy Science & Engineering,2022,10(7).(SCI三区)
61、Wang Z M, Zhang Q, Zeng Q S,Wei J G. A unified model of oil/water two-phase flow in the horizontal wellbore. SPE Journal. 2017, 22(1): 353-364. (SCI收录)
62、Zeng Q S, Wang Z M, Wang X Q,Wei J G. A novel autonomous inflow control device design and its performance prediction. Journal of Petroleum Science and Engineering, 2015, 126, 35-47. (SCI收录)
63、Zeng Quanshu, Wang Zhiming, Wang Xiaoqiu,Wei Jianguang. A Novel Autonomous Inflow Control Device Design Based on the Combination of Two Dynamic Fluid Technologies. SPE Heavy Oil Conference Canada, June 10–12, 2014: Calgary, Canada. (EI收录)
64、Zeng Quanshu, Wang Zhiming, Yang Gang,Wei Jianguang. Selection and Optimization Study on Passive Inflow Control Devices by Numerical Simulation. SPE Middle East Intelligent Energy Conference and Exhibition, October 28-30, 2013: Manama, Bahrain. (EI收录)
65、Sang, Guangsen, Jiang Zhenhai, Zhang Qingjie,Wei Jianguang, Zhang Tianjun. A novel autonomous inflow control device design based on water swelling rubber. IADC/SPE Asia Pacific Drilling Technology Conference 2014: Driving Sustainable Growth Through Technology and Innovation, 2014, 400-407. (EI收录)
66、Zeng, Quanshu, Wang Zhiming, Wang Xiaoqiu,Wei Jianguang, Zhang Hang, Xiao Jingnan. A novel autonomous inflow control device design based on the combination of two dynamic fluid technologies. SPE Heavy Oil Conference Canada 2014, 2014, 2: 762-771. (EI收录)
67、Zeng Quanshu, Wang Zhiming, Yang Gang,Wei Jianguang. Selection and optimization study on passive inflow control devices by numerical simulation. Society of Petroleum Engineers - SPE Intelligent Energy International 2013: Realising the Full Asset Value, 2013, 515-524. (EI收录)
68、Cong Ziyuan, Li Yuwei, Pan Yishan, Liu Bo, Shi Ying,Wei Jianguang, Li Wei. Study on CO2foam fracturing model and fracture propagation simulation[J]. Energy,2022,238(PB).(SCI一区TOP期刊)
69、Dong Zhang , Tong Jin, Fahimeh Hadavimoghaddam, Jun Zhang , Mehdi Ostadhassan , Runnan Zhou , Xiaofeng Zhou , Shamil Sultanov,Jianguang Wei. Wettability alteration and slippage effect of adsorbed nanoparticles in tight reservoirs: A molecular simulation [J]. Geoenergy Science and Engineering, 2023.(SCI二区TOP期刊)
70、魏建光,付兰清,赵国忠,李斌会,赵小青,王安伦.松辽盆地古龙页岩油储层孔隙结构对外来流体的敏感性[J].大庆石油地质与开发,2022,41(03):120-129. DOI:10.19597/J.ISSN.1000-3754.202111063.(中文核心)
71、魏建光,林雪松.某区块泡沫油形成原因及泡沫体积影响因素试验研究[J].长江大学学报(自科版),2017,14(19):75-80+119-120.(中文核心)
72、魏建光,任喜东,张静.不同类型射孔弹射孔伤害参数测定实验研究[J].钻采工艺,2016,39(05):36-38.(中文核心)
73、魏建光,马媛媛.聚合物溶液在多孔介质中流动规律实验研究[J].石油化工高等学校学报,2016,29(06):23-26.(中文核心)
74、魏建光,汪志明,张权,高学珍.射孔完井水平井筒变质量流压降规律实验[J].重庆大学学报,2013,36(09):52-57.(中文核心)
75、魏建光,王小秋,陈海波,张权.全尺寸射孔完井水平井筒流动压降实验[J].石油勘探与开发,2013,40(02):220-225. (SCI收录)
76、魏建光,汪志明,王小秋.非均质油藏水平井射孔参数分段优化模型[J].中国石油大学学报(自然科学版),2009,33(02):75-79+84. (EI收录)
77、魏建光,汪志明,张欣.裂缝参数对压裂水平井产能影响规律分析及重要性排序[J].水动力学研究与进展A辑,2009,24(05):631-639. (EI收录)
78、魏建光,汪志明,王小秋.水平圆管油水两相变质量分层流压降计算[J].石油钻采工艺,2006(05):61-64+85-86.(中文核心)
79、魏建光,汪志明,王小秋.浅析油气井产能的影响因素[J].钻采工艺, 2006(01): 43-45+124.(中文核心)
80、魏建光,周晓峰,杨英,李江涛,王安伦,张栋,史雪冬.大庆古龙页岩油储层微观孔隙结构与渗流机制研究[J].在投石油学报(EI收录)
81、王云飞,魏建光.减氧空气与轻质原油低温氧化反应特征研究[J/OL].地质科技通报:1-7[2023-01-03].DOI:10.19509/j.cnki.dzkq.2022.0181.(中文核心)
82、汪志明,魏建光,王小秋.水平井射孔参数分段组合优化模型[J].石油勘探与开发,2008,35(06):725-730. (SCI收录)
83、曾泉树,汪志明,魏建光,等.自调流式喷管型ICD的设计与数值验证.西南石油大学学报(自然科学版), 2015, 37(4): 173-180.(中文核心)
84、汪志明,齐振林,魏建光,金辉.裂缝参数对压裂水平井入流动态的影响[J].中国石油大学学报(自然科学版),2010,34(01):73-78. (EI收录)
85、平立秋,汪志明,魏建光.欠平衡钻井多相流模型评价分析[J].西南石油大学学报(自然科学版),2007(01):75-78+145-146. (EI收录)
86、平立秋,汪志明,魏建光.气液两相流压降模型在欠平衡钻井中的应用[J].天然气工业,2007(04):72-75+155. (EI收录)
87、王小秋,汪志明,魏建光.井筒与油藏耦合条件下水平井变质量流动规律研究[J].水动力学研究与进展(A辑),2005(03):326-331. (EI收录)
88、李玉伟,彭根博,陈勉,张军,魏建光,杨春光. CO2泡沫压裂井筒气-液-固三相流动模型[J].石油学报, 2022, 43(3): 386-398.(EI收录)
89、曾泉树,汪志明,王小秋,魏建光.混合型流入控制装置改进及性能分析.东北石油大学学报, 2015, 39(1): 106-111.(中文核心)
90、曾泉树,汪志明,王小秋,魏建光.一种新型AICD的设计及其数值模拟.石油钻采工艺, 2015, 37(2): 101-106.(中文核心)
七、知识产权(专利)情况
(一)发明专利
1、魏建光,周晓峰,尚德淼,梁爽,荣根,王孝建,王云飞,一种基于聚类分析测井岩石物理相双甜点识别方法,2021.06.30,中国,ZL 2021 1 0741404.6
2、魏建光,陈映赫,王安伦,付晓飞,荣根,王孝建,一种煤岩裂隙特征表征与渗透性模拟方法, 2021.04.26,中国,ZL 2021 1 0456248.9
3、魏建光,周晓峰,王安伦,刘松泽,陈映赫,荣根。致密储层岩心静态加压可视化渗吸实验装置,2020.06.10,中国,ZL 2020 1 0525235.8
4、魏建光,李江涛,周晓峰,刘丽颖,郝广维,荣根,李继尧。一种页岩网状裂缝长期导流能力测定装置,2019.12.11,中国,ZL 2019 1 1266117.3
5、魏建光,李江涛,周晓峰,陈映赫,周润楠,周久穆,李颖雪。一种陆相页岩油储层裂缝长期导流能力测定装置,2019.12.11,中国,ZL 2019 1 12812351
6、魏建光,赵法军,刘达京,李江涛,陈曦,陈永达,一种可调式变压差恒流量堵塞器,2017.01.04,中国,ZL 2013 1 0491591.2;
7、魏建光,赵法军,李江涛,曾泉树,刘达京,一种自调流式喷管型流入控制装置,2016.01.20,中国,ZL 2014 1 0006166.4;
8、魏建光,赵法军,曾泉树,李江涛,刘达京,陈曦,一种分叉流道式自适应流入控制装置,2014.05.21,中国,ZL2014 1 0055993.2
9、周晓峰,魏建光,赵小青,刘向斌,李江涛,张世东,王安伦,丁汝杰。一种基于聚类分析测井岩石物理相划分的储层可压性评价方法,2020.12.01,中国,ZL 2020 1 0374824.0
10、周晓峰,魏建光,李江涛,周润楠,李继尧,李颖雪。考虑注水启动压力梯度的堵塞器嘴后压力计算方法,2021-01-26,中国, ZL 2020 1 0605185.4
11、周晓峰,魏建光,王安伦,刘松泽,陈映赫,荣根。致密储层岩心静态加压可视化渗吸实验方法,2020.06.11,中国,ZL 2020 1 0525241.3
12、付晓飞,魏建光,周晓峰,王安伦,赵小青,李斌会,杨英,王瑞,李江涛,赵利东.页岩油气储层对外来流体敏感性定量评价新方法,2022.07.19,CN202210845363,实质审查。
13、杨英,魏建光,周晓峰,李玉伟,崔立凯,李江涛,王安伦,史雪冬,张益畅,陈映赫,宫鹏骐.页岩裂缝导流能力测试中支撑剂嵌入深度实时测定方法,2022.06.15,中国,ZL 2022 1 0676012.0
14、王安伦、魏建光、李根、宫鹏骐、周晓峰、杨英、李江涛、史雪冬、李继尧、张潇.基于T2谱分析的砂岩注水采油剩余油分布测定方法,2023.05.19,中国,ZL 2022 1 1083405.7
15、李江涛、魏建光、牛银涛、史雪冬、杨英、王安伦、周晓峰.一种基于随机生长法的页岩基质数字岩心重构方法,实质审查。
16、赵法军,魏建光,刘永建,闻守斌,刘灏亮,消除油井酸洗返排液导致联合站系统放水水质恶化的方法,2015.12.16,中国,ZL2015 1 0404044.5
17、赵法军,魏建光,刘永建,闻守斌,刘灏亮,马海程,联合站电脱水器极板化学清洗方法,2015.10.28,中国,ZL 2015 1 0291180.8
18、赵法军,魏建光,刘永建,殷代印,刘维凯,耿志刚,用于火烧油层开采稠油的改质降粘方法,2013.11.27,中国,ZL 2013 1 0352886.1
19、周晓峰,付晓飞,魏建光,王龙,王屹岭,陈映赫,蒲堡萍,张益畅,牛银涛,张潇,一种基于霍尔曲线导数确定聚合物注入能力新方法, 2022.08.12,中国, ZL 2022 1 0063243.6
20、赵法军,刘永建,魏建光,闻守斌,刘维凯,冯进来,一种开采稠油或沥青的方法,2014.07.23,中国,ZL 2014 1 0152121.8
21、赵小青,柳波,付晓飞,魏建光,白龙辉,金亮,趋势基线法结合动态联动法计算地层有机碳含量的方法,2023.05.16,中国,ZL 2019 1 0296467.8
22、赵法军,刘永建,张继红,魏建光,闻守斌,胡绍彬,一种用于提高原油采收率的纳米流体的制备方法,2014.07.23,中国,ZL 2014 1 0152028.7
(二)实用新型专利
1、魏建光,赵法军,李江涛,曾泉树,测试影响注水井注水量的实验装置,2015.09.16,中国,ZL 20150361903.2;
2、魏建光,赵法军,陈永达,测试提高原油采收率的实验装置,2015.09.16,中国,ZL 20150361932.9;
3、王小秋,汪志明,魏建光,张权,翟羽佳,张秋阳,复杂结构井井筒油气水三相流体变质量流动的模拟装置,2013.7.31,中国,ZL 201220716746.9;
4、王小秋,汪志明,魏建光,肖京男,田志强,李江涛,张权,一种水平井与直井流入动态二维可视模拟装置,2013.7.31,中国,ZL 201220717583.6;
(三)软件著作权
1、魏建光;黄赛鹏;李江涛;强碱三元复合驱采出井垢质成分预测软件,2019SR0319112,原始取得,全部权利, 2019-02-15.
2、魏建光;黄赛鹏;李江涛;页岩气储层水平井产能预测及压后返排参数优化软件V1.0,2019SR0319092,原始取得,全部权利, 2019-02-13.
3、魏建光;周晓峰;李江涛;低渗透油藏储层分类专家数据库管理及产能预测软件V1.0,2019SR0319068,原始取得,全部权利, 2019-01-30.
4、魏建光;李江涛;陈永达;水平井三元复合驱有杆泵采油扶正器优化软件,2019SR0318175,原始取得,全部权利, 2019-1-15.
5、李江涛;魏建光;周晓峰.强碱三元复合驱采出井垢卡情况预测软件V1.0. 2019SR0319040.原始取得,全部权利, 2019-02-15.
6、李江涛;魏建光;任喜东.水平井三元复合驱流入剖面动态预测软件V1.0 2019SR0319051,原始取得,全部权利, 2019-2-10.
7、周晓峰;魏建光;尚德淼;杨英;李颖雪;王孝建.导流能力测量仪控制软件V1.0. 2021SR0882323.原始取得,全部权利, 2021-4-5.
8、周晓峰;徐国民;魏建光;王安伦;周润楠;陈映赫;刘松泽;周久穆.注水井堵塞器嘴后压力数据测试分析管理软件V1.0. 2020SR1172937.原始取得,全部权利, 2020-4-1.
八、招生专业
石油与天然气工程、油气田开发、EOR原理与技术、非常规油气高效开发
九、联系方式
通信地址:163318黑龙江省大庆市高新区火炬街孵化器1号楼东北石油大学非常规油气研究院
E-mail:weijianguang@163.com
Tel:18545771234/13634663105