開啟主選單

求真百科

張 昆
西南石油大學

張 昆,男, 西南石油大學副教授。

目錄

人物簡歷

2005.09至2009.06 西南石油大學 本科

2009.09至2012.06 西南石油大學 碩士

2012.08至2014.03 威德福(Weatherford)能源服務公司 工程師

2015.09至2019.06 中國石油大學(北京) 博士

2017.10至2018.10 美國猶他大學(University of Utah) 訪問學者

2019.07至2021.06 西南石油大學 地球科學與技術學院 師資博士後

2019.07至2022.12 西南石油大學 地球科學與技術學院 講師

2020.06至今 西南石油大學 地球科學與技術學院 碩士生導師

2022.12至2023.12 西南石油大學 地球科學與技術學院 副研究員

2023.12至今 西南石油大學 地球科學與技術學院 副教授

研究項目

1、國家自然科學基金—青年基金(42102192),陸相輕質頁岩油賦存孔隙空間及孔隙連通性定量表徵,2022.01至2024.12,負責人;

2、四川省自然科學基金—面上基金(24NSFSC1113),海相頁岩低電阻率成因機理及其對含氣性的影響,2024.01至2025.12,負責人;

3、中國博士後科學面上基金(2019M663560),龍馬溪組一段頁岩封閉性形成機理及對有機質孔發育影響,2019.12至2021.05,負責人;

4、「頁岩油氣富集機理與有效開發」國家重點實驗室基金(G5800-20-ZS-KFGY012),陸相頁岩儲層孔隙結構特徵及其對含油性的影響——以川東南地區涼高山組為例,2020.12至2021.12,負責人;

5、「油氣資源與探測」國家重點實驗室基金(PRP/open-2107),海相富有機質頁岩自封閉形成機理及對頁岩氣碳同位素組成影響,2021.04至2023.04,負責人;

6、「構造與油氣資源」教育部重點實驗室基金(TPR-2020-07),頁岩石墨化成因機理及對含氣性影響,2020.09至2022.08,負責人;

7、「頁岩氣評價與開採」 四川省重點實驗室基金(YSK2022010),輕質頁岩油賦存孔隙特徵定量表徵及對可動性的影響,2022.01至2022.12,負責人;

8、「構造與油氣資源」教育部重點實驗室基金(TPR-2022-08),陸相頁岩油可動性定量精細表徵,2022.08至2024.07,負責人;

9、中石油川慶鑽探分公司課題,川南深層頁岩氣儲層孔隙特徵對含氣性影響研究,2022.10至2023.06,負責人;

10、中石油川慶鑽探分公司課題,川南深層頁岩氣儲層孔隙結構特徵岩心實驗分析,2022.10至2023.06,負責人;

11、中石化勘探分公司課題,川東南涼高山組頁岩油氣評價與目標優選,2020.07至2021.11,負責人;

12、國家科技重大專項(2017ZX05035-002),五峰-龍馬溪組富有機質頁岩儲層精細描述與頁岩氣成藏機理,2017.01至2020.12,科研骨幹;

13、中石化勘探分公司課題,元壩地區千佛崖組沉積成岩及優質頁岩評價研究,2021.10至2022.10,科研骨幹;

14、中石化西南油氣分公司課題,川北中下侏羅統頁岩油氣儲層評價及有利區優選,2021.09至2022.12,科研骨幹;

15、中石化勝利油田課題,陳官莊地區沙四上細粒沉積體系與油氣富集規律研究,2020.05至2021.05,科研骨幹;

16、中石油青海油田課題,咸化湖盆碳酸鹽岩緻密油成藏主控因素與富集規律,2019.04至2020.05,科研骨幹;

17、江西省頁岩氣投資公司課題,南鄱陽盆地油氣成藏特徵研究及勘探潛力評價,2019.10至2021.06,科研骨幹;

18、重慶地質礦產研究院課題,重慶東南緣複雜構造帶頁岩含氣量分布影響因素研究,2018.04至2018.12,科研骨幹;

19、江西省頁岩氣投資公司課題,江西修武盆地構造演化與頁岩生排烴關係研究,2016.04至2016.12,科研骨幹;

20、江西省頁岩氣投資公司課題,江西修武盆地頁岩含氣性影響因素及定量預測,2015.09至2016.03,科研骨幹;

獲獎情況

1、2023年中國石油和化工自動化行業科技進步獎一等獎,排名第3;

2、2023年中國發明協會發明創業獎創新獎二等獎,排名第3;

3、2022年中國發明協會發明創業獎創新獎一等獎,排名第5;

4、2020年度中國石油科學十佳論文獎,排名第9;

5、2021年度「領跑者5000—中國精品科技期刊頂尖學術論文(F5000)」,排名第9;

6、中國石油大學(北京)優秀博士學位論文獎;

7、首屆「全國非常規油氣研究生學術論壇」二等獎。

學術兼職

1、《Advances in Geo-Energy Research》期刊青年編委

2、《油氣藏評價與開發》期刊第一屆青年編委

3、《斷塊油氣田》期刊第一屆青年編委

4、SCI期刊頁岩油氣專題客座主編

5、四川歐美同學會會員

6、近20種國內外期刊審稿專家

學術成果

科研論文

(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%高被引論文)

(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%高被引論文)

(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%高被引論文)

(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%熱點論文,ESI全球前1%高被引論文)

(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%高被引論文)

(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.

專利授權

(1)Zhang Kun, Jiang Shu, Peng Jun, et al., Joint characterization method of pore structures based on least square method and data. 美國發明專利授權. 專利號: US011668637B2

(2)張昆, 姜振學, 謝雪戀, 等. 海相頁岩層序識別方法及裝置. 中國發明專利授權. 專利號: ZL 201710157734.4

(3)張昆, 姜振學, 黃一舟, 等. 海相頁岩地層破裂深度的預測方法和裝置. 中國發明專利授權. 專利號: ZL201710684941.5

(4)張昆, 姜振學, 劉天琳, 等. 一種海相頁岩地層有利層段的識別方法. 中國發明專利授權. 專利號: ZL201710079042.2

(5)張昆, 姜振學, 劉天琳, 等. 一種頁岩地層有利層段的識別方法. 中國發明專利授權. 專利號: ZL201710097281.0

(6)張昆, 彭軍, 夏青松, 等. 向斜背景頁岩氣大量逸散深度定量確定方法. 中國發明專利授權. 專利號: ZL202010860519.2

(7)張昆, 彭軍, 夏青松, 等. 一種頁岩層序劃分方法. 中國發明專利授權. 專利號: ZL202110517084.6

(8)張昆, 劉培, 姜振學, 等. 基於最小二乘法的孔隙結構聯合表徵方法及數據處理方法. 中國發明專利授權. 專利號: ZL 202111120613.5

(9)張昆, 彭軍, 李斌, 等. 一種頁岩岩芯照相裝置, 中國實用新型專利授權. 專利號: ZL202021785283.2

(10)張昆, 彭軍, 夏青松, 等. 頁岩岩芯清洗烘乾裝置, 中國實用新型專利授權. 專利號: ZL202021857917.0

(11)劉培, 張昆, 袁雪皎, 等.一種環保型岩心清洗和拍照一體化裝置, 中國實用新型專利授權. 專利號: ZL202223311765.6

(12)陰麗詩, 姜振學, 張昆, 等. 測定海相頁岩石墨化的方法. 中國發明專利授權.專利號: ZL201710449006.0

(13)謝雪戀, 姜振學, 張昆, 等. 氣動除銹系統. 中國實用新型專利授權.專利號: ZL201720642444.4

(14)黃一舟, 姜振學, 張昆, 等. 頁岩岩芯盒. 中國實用新型專利授權. 專利號: ZL201820480733.3

(15)文銘, 姜振學, 張昆, 等. 一種頁岩岩芯盒. 中國實用新型專利授權. 專利號:ZL201820771292.2

計算機軟件著作權登記

(1)張昆, 袁雪皎, 韓鳳麗, 等. 頁岩沉積定量數據微相分類檢測系統V1.0. 計算機軟件著作權登記. 登記號: 2023SR1755982

(2)張昆, 袁雪皎, 韓鳳麗, 等. 頁岩氣區塊特徵分析評價系統V1.0. 計算機軟件著作權登記. 登記號: 2023SR1752876

教改論文發表

(1)張昆, 黃旭日, 唐洪, 等, 2023. 石油類高校資源勘查工程專業新生學業導師指導方法探索. 高教學刊 2023, (16): 118-121.

(2)張昆, 尹相東, 丁熊, 等, 2022. 基於「三全育人」的石油類高校《數學地質》課程教學方法探索. 教育現代化 2022, 9 (25): 207-210.

(3)尹相東, 張昆, 丁熊, 等, 2021. 「三全育人」思想指導下的《石油數學地質》教學方法改革初探. 教育現代化 2021, 8 (80), 32-34, 45.[1]

參考資料