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{| class="wikitable" style="float:right; margin: -10px 0px 10px 20px; text-align:left" |<center>''' 张 昆 '''<br><img src=" https://www.swpu.edu.cn/__local/7/45/4B/BB51A115DA59E8834783AEC6E34_5A69B8B4_C1D8.jpg " width="180"></center><small>[https://www.swpu.edu.cn/dky/szdw/jsml/yqdzjys/fjs/zk.htm 西南石油大学] </small> |} '''张 昆''',男, 西南石油大学副教授。 ==人物简历== 2005.09至2009.06 西南石油大学 本科 2009.09至2012.06 西南石油大学 硕士 2012.08至2014.03 威德福(Weatherford)能源服务公司 工程师 2015.09至2019.06 中国石油大学(北京) 博士 2017.10至2018.10 美国犹他大学(University of Utah) 访问学者 2019.07至2021.06 西南石油大学 地球科学与技术学院 师资博士后 2019.07至2022.12 西南石油大学 地球科学与技术学院 讲师 2020.06至今 西南石油大学 地球科学与技术学院 硕士生导师 2022.12至2023.12 西南石油大学 地球科学与技术学院 副研究员 2023.12至今 西南石油大学 地球科学与技术学院 副教授 ==研究项目== 1、国家自然科学基金—青年基金(42102192),陆相轻质页岩油赋存孔隙空间及孔隙连通性定量表征,2022.01至2024.12,负责人; 2、四川省自然科学基金—面上基金(24NSFSC1113),海相页岩低电阻率成因机理及其对含气性的影响,2024.01至2025.12,负责人; 3、中国博士后科学面上基金(2019M663560),龙马溪组一段页岩封闭性形成机理及对有机质孔发育影响,2019.12至2021.05,负责人; 4、“页岩油气富集机理与有效开发”国家重点实验室基金(G5800-20-ZS-KFGY012),陆相页岩储层孔隙结构特征及其对含油性的影响——以川东南地区凉高山组为例,2020.12至2021.12,负责人; 5、“油气资源与探测”国家重点实验室基金(PRP/open-2107),海相富有机质页岩自封闭形成机理及对页岩气碳同位素组成影响,2021.04至2023.04,负责人; 6、“构造与油气资源”教育部重点实验室基金(TPR-2020-07),页岩石墨化成因机理及对含气性影响,2020.09至2022.08,负责人; 7、“页岩气评价与开采” 四川省重点实验室基金(YSK2022010),轻质页岩油赋存孔隙特征定量表征及对可动性的影响,2022.01至2022.12,负责人; 8、“构造与油气资源”教育部重点实验室基金(TPR-2022-08),陆相页岩油可动性定量精细表征,2022.08至2024.07,负责人; 9、中石油川庆钻探分公司课题,川南深层页岩气储层孔隙特征对含气性影响研究,2022.10至2023.06,负责人; 10、中石油川庆钻探分公司课题,川南深层页岩气储层孔隙结构特征岩心实验分析,2022.10至2023.06,负责人; 11、中石化勘探分公司课题,川东南凉高山组页岩油气评价与目标优选,2020.07至2021.11,负责人; 12、国家科技重大专项(2017ZX05035-002),五峰-龙马溪组富有机质页岩储层精细描述与页岩气成藏机理,2017.01至2020.12,科研骨干; 13、中石化勘探分公司课题,元坝地区千佛崖组沉积成岩及优质页岩评价研究,2021.10至2022.10,科研骨干; 14、中石化西南油气分公司课题,川北中下侏罗统页岩油气储层评价及有利区优选,2021.09至2022.12,科研骨干; 15、中石化胜利油田课题,陈官庄地区沙四上细粒沉积体系与油气富集规律研究,2020.05至2021.05,科研骨干; 16、中石油青海油田课题,咸化湖盆碳酸盐岩致密油成藏主控因素与富集规律,2019.04至2020.05,科研骨干; 17、江西省页岩气投资公司课题,南鄱阳盆地油气成藏特征研究及勘探潜力评价,2019.10至2021.06,科研骨干; 18、重庆地质矿产研究院课题,重庆东南缘复杂构造带页岩含气量分布影响因素研究,2018.04至2018.12,科研骨干; 19、江西省页岩气投资公司课题,江西修武盆地构造演化与页岩生排烃关系研究,2016.04至2016.12,科研骨干; 20、江西省页岩气投资公司课题,江西修武盆地页岩含气性影响因素及定量预测,2015.09至2016.03,科研骨干; ==获奖情况== 1、2023年中国石油和化工自动化行业科技进步奖一等奖,排名第3; 2、2023年中国发明协会发明创业奖创新奖二等奖,排名第3; 3、2022年中国发明协会发明创业奖创新奖一等奖,排名第5; 4、2020年度中国石油科学十佳论文奖,排名第9; 5、2021年度“领跑者5000—中国精品科技期刊顶尖学术论文(F5000)”,排名第9; 6、中国石油大学(北京)优秀博士学位论文奖; 7、首届“全国非常规油气研究生学术论坛”二等奖。 ==学术兼职== 1、《Advances in Geo-Energy Research》期刊青年编委 2、《油气藏评价与开发》期刊第一届青年编委 3、《断块油气田》期刊第一届青年编委 4、SCI期刊页岩油气专题客座主编 5、四川欧美同学会会员 6、近20种国内外期刊审稿专家 ==学术成果== === 科研论文 === (1)Zhang Kun, Jia Chengzao, Song Yan, et al., 2020. Analysis of Lower Cambrian shale gas composition, source and accumulation pattern in different tectonic backgrounds: A case study of Weiyuan Block in the Upper Yangtze region and Xiuwu Basin in the Lower Yangtze region. Fuel 263 (2020), 115978.(ESI全球前1%高被引论文) (2)Zhang Kun, Song Yan, Jiang Shu, et al., 2019. Shale gas accumulation mechanism in a syncline setting based on multiple geological factors: An example of southern Sichuan and the Xiuwu Basin in the Yangtze Region. Fuel 241 (2019), 468–476. (3)Zhang Kun, Song Yan, Jia Chengzao, et al., 2019. Vertical sealing mechanism of shale and its roof and floor and effect on shale gas accumulation, a case study of marine shale in Sichuan basin, the Upper Yangtze area. Journal of Petroleum Science and Engineering 175 (2019), 743–754. (4)Zhang Kun, Song Yan, Jia Chengzao, et al., 2022. Formation mechanism of the sealing capacity of the roof and floor strata of marine organic-rich shale and shale itself, and its influence on the characteristics of shale gas and organic matter pore development. Marine and Petroleum Geology 140 (2022), 105647.(ESI全球前1%高被引论文) (5)Zhang Kun, Song Yan, Jiang Shu, et al., 2019. Mechanism analysis of organic matter enrichment in different sedimentary backgrounds: A case study of the Lower Cambrian and the Upper Ordovician-Lower Silurian, in Yangtze region. Marine and Petroleum Geology 99 (2019), 488–497.(ESI全球前1%高被引论文) (6)Zhang Kun, Jiang Zhenxue, Yin Lishi, et al., 2017. Controlling functions of hydrothermal activity to shale gas content-taking lower Cambrian in Xiuwu Basin as an example. Marine and Petroleum Geology 85 (2017), 177–193. (7)Zhang Kun, Jiang Shu, Zhao Rui, et al., 2022. Connectivity of organic matter pores in the Lower Silurian Longmaxi Formation shale, Sichuan Basin, Southern China: Analyses from helium ion microscope and focused ion beam scanning electron microscope. Geological Journal 2022, 57(5): 1912-1924. (ESI全球前0.1%热点论文,ESI全球前1%高被引论文) (8)Zhang Kun, Song Yan, Jiang Zhenxue, et al., 2022. Quantitative comparison of genesis and pore structure characteristics of siliceous minerals in marine shale with different TOC contents - A case study on the shale of Lower Silurian Longmaxi Formation in Sichuan Basin, Southern China. Frontiers in Earth Science 2022, 887160. (ESI全球前1%高被引论文) (9)Zhang Kun, Song Yan, Jiang Zhenxue, et al., 2022. Research on the occurrence state of methane molecules in postmature marine shales-A case analysis of the Lower Silurian Longmaxi Formation shales of the upper Yangtze region in Southern China. Frontiers in Earth Science 2022, 864279. (10)Zhang Kun, Jiang Zhenxue, Song Yan, et al., 2022. Quantitative characterization for pore connectivity, pore wettability, and shale oil mobility of terrestrial shale with different lithofacies -- A case study of the Jurassic Lianggaoshan Formation in the Southeast Sichuan Basin of the Upper Yangtze Region in Southern China. Frontiers in Earth Science 2022, 864189. (11)Zhang Kun, Yuan Xuejiao, Han Fengli, 2023. Editorial: Reservoir Formation Conditions and Enrichment Mechanisms of Shale Oil and Gas. Frontiers in Earth Science 2023, 1047581. (12)Zhang Kun, Li Zhuo, Jiang Shu, et al., 2018. Comparative analysis of the siliceous source and organic matter enrichment mechanism of the Upper Ordovician–Lower Silurian Shale in the Upper-Lower Yangtze Area. Minerals 2018(8), 283. (13)Zhang Kun, Jiang Zhenxue, Xie Xuelian, et al., 2018. Lateral percolation and its effect on shale gas accumulation on the basis of complex tectonic background. Geofluids 2018, 5195469. (14)Zhang Kun, Song Yan, Jiang Shu, et al., 2019. Accumulation mechanism of marine shale gas reservoir in anticlines: a case study of the southern Sichuan Basin and Xiuwu Basin in the Yangtze region. Geofluids 2019, 5274327. (15)Zhang Kun, Peng Jun, Liu Weiwei, et al., 2020. The role of deep geofluids in the enrichment of sedimentary organic matter: a case study of the Late Ordovician-Early Silurian in the upper Yangtze region and early Cambrian in the lower Yangtze region, south China. Geofluids 2020, 8868638. (16)Zhang Kun, Peng Jun, Wang Xin, et al., 2020. Effect of organic maturity on shale gas genesis and pores development: A case study on marine shale in the upper Yangtze region, South China. Open Geosciences 12 (2020), 1617–1629. (17)Yuan Xuejiao, Zhang Kun, Peng Jun, et al., 2022. Study on Characteristics of Oil and Gas Occurrence and Reservoir Space of Medium-high Maturity Continental Shale--A case study of Middle Jurassic Lianggaoshan Formation in Fuling block, southeast of Sichuan Basin, South China. Frontiers in Earth Science 2022, 1032018. (18)Zhang Ziya, Zhang Kun, Song Yan, et al., 2021. Study on the formation mechanism of shale roof, floor sealing, and shale self-sealing: A case of Member I of the Upper Ordovician Wufeng Formation–Lower Silurian Longmaxi Formation in the Yangtze Region. Frontiers in Earth Science 2021, 764287. (19)Wei Xiangfeng, Zhang Kun, Li Qianwen, et al., 2021. Quantitative characterization of pore space for the occurrence of continental shale oil in lithofacies of different types: Middle Jurassic Lianggaoshan Formation in southeastern Sichuan Basin of the upper Yangtze area. Geofluids 2021, 9906500. (20)Li Qinyu, Zhang Kun, Wei Lin, et al., 2022. Influence of Organic Matter on Gas-Bearing Properties and Analysis of Sedimentary Mechanism of Organic Matter Enrichment: A Case Study on the Yangtze Region of Southern China during the Early Cambrian. Geofluids 2022, 8714919. (21)Huang Yizhou, Zhang Kun, Jiang Zhenxue, et al., 2019. A cause analysis of the high-content nitrogen and low-content hydrocarbon in shale gas: A case study of the Early Cambrian in Xiuwu Basin, Yangtze Region. Geofluids 2019, 1435892. (22)Liu Weiwei, Zhang Kun, Jiang Zhenxue, et al., 2018. Effect of the hydrothermal activity in the Lower Yangtze region on marine shale gas enrichment: A case study of Lower Cambrian and Upper Ordovician-Lower Silurian shales in Jiangye-1 well. Open Geosciences 10 (2018), 582–592. (23)Li Zhuo, Zhang Kun, Song Yan, et al., 2019. Source Analysis of Silicon and Uranium in uranium-rich shale in the Xiuwu Basin, Southern China. Open Geosciences 11 (2019), 89–100. (24)Li Zhuo, Zhang Kun, Song Yan, et al., 2019. Division of shale sequences and prediction of the favorable shale gas intervals: an example of the Lower Cambrian of Yangtze Region in Xiuwu Basin. Open Geosciences 2019, 11 (2019), 183–195. (25)Liu Weiwei, Zhang Kun, Li Qianwen, et al., 2021. Quantitative characterization for the micronanopore structures of terrestrial shales with different lithofacies types: A case study of the Jurassic Lianggaoshan Formation in the Southeastern Sichuan Basin of the Yangtze Region. Geofluids 2021, 1416303. (26)Wen Ming, Jiang Zhenxue, Zhang Kun, et al., 2019. Difference analysis of organic matter enrichment mechanisms in upper Ordovician-lower Silurian shale from the Yangtze region of southern China and its geological significance in shale gas exploration. Geofluids 2019, 9524507. (27)Huang Yizhou, Jiang Zhenxue, Zhang Kun, et al., 2018. Effect of Hydrothermal Activity on Organic Matter Enrichment of Shale: A Case Study of the Upper Ordovician and the Lower Silurian in the Lower Yangtze, South China. Minerals 2018(8), 495. (28)Liu Xiaoxue, Jiang Zhenxue, Zhang Kun, et al., 2019. Mechanism Analysis of Organic Matter Enrichment of Upper Ordovician-Lower Silurian Shale in the Upper Yangtze Area: Taking Jiaoye-1 Well in the Jiaoshiba Block as an Example. Geofluids 2019, 5806023. (29)Wang Xin, Jiang Zhenxue, Zhang Kun, et al., 2020. Analysis of Gas Composition and Nitrogen Sources of Shale Gas Reservoir under Strong Tectonic Events: Evidence from the Complex Tectonic Area in the Yangtze Plate. Energies 2020(13), 281. (30)Cheng Sihong, Li Bin, Zhang Kun, et al., 2020. Study on the Mechanism of Organic Matter Enrichment in Early Cambrian Marine Shales in the Lower Yangtze Area, South China: An Example Using Well JXY1. Geofluids 2020, 2460302. === 专利授权 === (1)Zhang Kun, Jiang Shu, Peng Jun, et al., Joint characterization method of pore structures based on least square method and data. 美国发明专利授权. 专利号: US011668637B2 (2)张昆, 姜振学, 谢雪恋, 等. 海相页岩层序识别方法及装置. 中国发明专利授权. 专利号: ZL 201710157734.4 (3)张昆, 姜振学, 黄一舟, 等. 海相页岩地层破裂深度的预测方法和装置. 中国发明专利授权. 专利号: ZL201710684941.5 (4)张昆, 姜振学, 刘天琳, 等. 一种海相页岩地层有利层段的识别方法. 中国发明专利授权. 专利号: ZL201710079042.2 (5)张昆, 姜振学, 刘天琳, 等. 一种页岩地层有利层段的识别方法. 中国发明专利授权. 专利号: ZL201710097281.0 (6)张昆, 彭军, 夏青松, 等. 向斜背景页岩气大量逸散深度定量确定方法. 中国发明专利授权. 专利号: ZL202010860519.2 (7)张昆, 彭军, 夏青松, 等. 一种页岩层序划分方法. 中国发明专利授权. 专利号: ZL202110517084.6 (8)张昆, 刘培, 姜振学, 等. 基于[[最小二乘法]]的孔隙结构联合表征方法及数据处理方法. 中国发明专利授权. 专利号: ZL 202111120613.5 (9)张昆, 彭军, 李斌, 等. 一种页岩岩芯照相装置, 中国实用新型专利授权. 专利号: ZL202021785283.2 (10)张昆, 彭军, 夏青松, 等. 页岩岩芯清洗烘干装置, 中国实用新型专利授权. 专利号: ZL202021857917.0 (11)刘培, 张昆, 袁雪皎, 等.一种环保型岩心清洗和拍照一体化装置, 中国实用新型专利授权. 专利号: ZL202223311765.6 (12)阴丽诗, 姜振学, 张昆, 等. 测定海相页岩石墨化的方法. 中国发明专利授权.专利号: ZL201710449006.0 (13)谢雪恋, 姜振学, 张昆, 等. 气动除锈系统. 中国实用新型专利授权.专利号: ZL201720642444.4 (14)黄一舟, 姜振学, 张昆, 等. 页岩岩芯盒. 中国实用新型专利授权. 专利号: ZL201820480733.3 (15)文铭, 姜振学, 张昆, 等. 一种页岩岩芯盒. 中国实用新型专利授权. 专利号:ZL201820771292.2 === 计算机软件著作权登记 === (1)张昆, 袁雪皎, 韩凤丽, 等. 页岩沉积定量数据微相分类检测系统V1.0. 计算机软件著作权登记. 登记号: 2023SR1755982 (2)张昆, 袁雪皎, 韩凤丽, 等. 页岩气区块特征分析评价系统V1.0. 计算机软件著作权登记. 登记号: 2023SR1752876 === 教改论文发表 === (1)张昆, [[黄旭日]], 唐洪, 等, 2023. 石油类高校资源勘查工程专业新生学业导师指导方法探索. 高教学刊 2023, (16): 118-121. (2)张昆, 尹相东, 丁熊, 等, 2022. 基于“三全育人”的石油类高校《数学地质》课程教学方法探索. 教育现代化 2022, 9 (25): 207-210. (3)尹相东, 张昆, 丁熊, 等, 2021. “三全育人”思想指导下的《石油数学地质》教学方法改革初探. 教育现代化 2021, 8 (80), 32-34, 45.<ref>[https://www.swpu.edu.cn/sgy/index.htm 西南石油大学]</ref> ==参考资料== {{reflist}} [[Category:教授]]
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