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何涛华简介

来源:   发布:2022-11-23 10:22:43  点击量:

何涛华,男,湖北天门人,博士,讲师/特任副教授

 

个人简介: 作为技术骨干主持/参与多个塔里木盆地台盆区烃源岩有效性、有机质富集机制、油源对比、混源油定量解析、油气成藏相关国家级/省部级/企事业级项目,尤其是在塔里木盆地深层-超深层油气地质与勘探以及页岩油富集机制(有机质富集、页岩油分级评价、古环境等)方面积累了丰富的科研经验,并取得了多项创新性认识;近5年来发表论文20余篇,其中以第一作者/通讯作者发表SCI论文10篇、EI论文1篇以及中文核心论文1篇;以第一发明人授权国家发明专利1项等;荣获国家级、省部级、厅局级奖项/荣誉6项,包括博士研究生国家奖学金、山东省优秀毕业生、教育部科学技术进步奖二等奖、中国石油大学(华东)优秀博士学位论文、Distinction Paper Award等;此外,长期担任European Association of Geochemistry会员,Natural Resources ResearchJournal of Petroleum Science and Engineering Energy & FuelsFrontiers of Earth ScienceFrontiers in Earth ScienceMineralsEnergies等国际期刊审稿人,参与国际会议4次,国内会议5次,作为特邀专家参与中石化成藏重点实验室授课等。

研究方向: 主要从事非常规油气、深层-超深层油气地质与勘探方面相关领域的教学及科研工作。

邮箱hetaohua@yangtzeu.edu.cnb17010030@s.upc.edu.cn

教育背景

2011.09—2015.07 长江大学,地球化学,本科;

2017.09—2022.06 中国石油大学(华东),地质资源与地质工程,博士 [导师:卢双舫]

工作经历

2022.07—至今, 长江大学 华体会app登录入口,华体会(中国)官方, 讲师/特任副教授,硕士生导师

主要代表论文

[1] He, T., Li, W., Lu, S., Yang, E., Jing, T., Ying, J., Zhu, P., Wang, X., Pan, W., Zhang, B., Chen, Z., 2022. Quantitatively unmixing method for complex mixed oil based on its fractions carbon isotopes: A case from the Tarim Basin, NW China[J]. Petroleum Science. https://doi.org/10.1016/j.petsci.2022.07.010 [SCI一区TOP]

[2] He, T., Li, W., Lu, S., Yang, E., Jing, T., Ying, J., Zhu, P., Wang, X., Pan, W., Chen, Z., 2022. Distribution and isotopic signature of 2-alkyl-1,3,4-trimethylbenzenes in the Lower Paleozoic source rocks and oils of Tarim Basin: Implications for the oil-source correlation[J]. Petroleum Science. https://doi.org/10.1016/j.petsci.2022.07.014 [SCI一区TOP]

[3] He, T., Li, W., Lu, S., Pan, W., Ying, J., Zhu, P., Yang, E., Wang, X., Zhang, B., Sun, D., 2022. Mechanism and geological significance of anomalous negative δ13Ckerogen in the Lower Cambrian, NW Tarim Basin, China[J]. Journal of Petroleum Science and Engineering, 208, 109384. https://doi.org/10.1016/j.petrol.2021.109384 [SCI一区]

[4] Sun, D., Liu, X., Li, W., Lu, S., He, T.*, Zhu, P., Zhao, H., 2022. Quantitative evaluation the physical properties evolution of sandstone reservoirs constrained by burial and thermal evolution reconstruction: A case study from the Lower Cretaceous Baxigai Formation of the western Yingmaili Area in the Tabei Uplift, Tarim Basin, NW China[J]. Journal of Petroleum Science and Engineering, 208, 109460. https://doi.org/10.1016/j.petrol.2021.109460 [SCI一区]

[5] He, T., Lu, S., Li, W., Sun, D., Pan, W., Zhang, B., Tan, Z., Ying, J., 2020. Paleoweathering, hydrothermal activity and organic matter enrichment during the formation of earliest Cambrian black strata in the northwest Tarim Basin, China[J]. Journal of Petroleum Science and Engineering, 189, 106987. https://doi.org/10.1016/j.petrol.2020.106987 [SCI一区]

[6] He, T., Lu, S., Li, W., Wang, W., Sun, D., Pan, W., Zhang, B., 2020. Geochemical characteristics and effectiveness of thick, black shales in southwestern depression, Tarim Basin[J]. Journal of Petroleum Science and Engineering, 185, 106607. https://doi.org/10.1016/j.petrol.2019.106607 [SCI一区]

[7] He, T., Lu, S., Li, W., Tan, Z., Zhang, X., 2018. Effect of Salinity on Source Rock Formation and Its Control on the Oil Content in Shales in the Hetaoyuan Formation from the Biyang Depression, Nanxiang Basin, Central China[J]. Energy Fuels, 32, 6698–6707. https://doi.org/10.1021/acs.energyfuels.8b01075 [SCI二区]

[8] Wang, X., Li, J., Huang, Y., Lu, S., Chen, K., Wei, Y., Song, Z., Zhao, R., He, T.*, 2022. Influence of Paleosedimentary Environment on Shale Oil Enrichment in the Raoyang Sag, Bohai Bay Basin[J]. Energy Fuels. https://doi.org/10.1021/acs.energyfuels.2c02942 [SCI三区]

[9] Wang, H., Qiao, L., Lu, S., Chen, F., Fang, Z., He, X., Zhang, J., He, T.*, 2021. A Novel Shale Gas Production Prediction Model Based on Machine Learning and Its Application in Optimization of Multistage Fractured Horizontal Wells[J]. Front. Earth Sci., 9, 726537. https://doi.org/10.3389/feart.2021.726537 [SCI三区]

[10] Qiao, L., Wang, H., Lu, S., Liu, Y., He, T.*, 2022. Novel Self-Adaptive Shale Gas Production Proxy Model and Its Practical Application[J]. ACS Omega, 7, 8294–8305. https://doi.org/10.1021/acsomega.1c05158 [SCI三区]

[11] 何涛华, 李文浩, 杨二强, 卢双舫, 潘文庆, 张宝收, 应俊锋, 朱鹏飞, 王秀哲, 2022. 塔里木盆地早寒武世风化热液耦合过程及其地质意义[J]. 东北石油大学学报, 46, 47-61.

[12] 何涛华, 李文浩, 谭昭昭, 王亚, 张文博, 章新文, 2019. 南襄盆地泌阳凹陷核桃园组页岩油富集机制[J]. 石油与天然气地质, 40, 1259–1269.

[13] Li, W., Li, J., Lu, S., Chen, G., Pang, X., Zhang, P., He, T., 2022. 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[J]. International Journal of Coal Geology, 249, 103881. https://doi.org/10.1016/j.coal.2021.103881 [SCI一区TOP]

[14] Tan, Z., Wang, W., Li, W., Lu, S., He, T., 2017. Controlling factors and physical property cutoffs of the tight reservoir in the Liuhe Basin[J]. Adv. Geo-Energ. Res., 1, 190–202. https://doi.org/10.26804/ager.2017.03.06

[15] Li, W., Lu, S., Tan, Z., He, T., 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[J]. Energy Fuels, 31, 13519–13527. https://doi.org/10.1021/acs.energyfuels.7b02880

[16] Tan, Z., Lu, S., Li, W., Zhang, Y., He, T., Jia, W., Peng, P., 2019. Climate-Driven Variations in the Depositional Environment and Organic Matter Accumulation of Lacustrine Mudstones: Evidence from Organic and Inorganic Geochemistry in the Biyang Depression, Nanxiang Basin, China[J]. Energy Fuels, 33, 6946–6960. https://doi.org/10.1021/acs.energyfuels.9b00595

[17] Wang, P., Peng, S., He, T., 2018. A novel approach to total organic carbon content prediction in shale gas reservoirs with well logs data, Tonghua Basin, China[J]. Journal of Natural Gas Science and Engineering, 55, 1–15. https://doi.org/10.1016/j.jngse.2018.03.029

[18] 唐佳凡, 唐明明, 卢双舫, 刘雪萍, 张克鑫, 何涛华, 韩迪. 基于耦合沉积动力学模拟与多点地质统计学方法的河口湾储层三维建模研究[J]. 地球科学, 1–18.

[19] 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, 2021. 河流-潮汐耦合控制下河口湾坝体沉积动力学数值模拟[J]. 地球科学, 46, 2944. https://doi.org/10.3799/dqkx.2020.305

[20] 谭昭昭, 王伟明, 李文浩, 卢双舫, 何涛华, 程泽虎, 2018. 泌阳凹陷核桃园组三段富有机质泥页岩形成环境及发育模式[J]. 沉积学报, 36, 1256–1266. https://doi.org/10.14027/j.issn.1000-0550.2018.096

[21] 张晗, 卢双舫, 李文浩, 田伟超, 胡莹, 何涛华, 谭昭昭, 2017. ΔLogR技术与BP神经网络在复杂岩性致密层有机质评价中的应用[J]. 地球物理学进展, 32, 1308–1313.

[22] 孙东权, 李文浩, 卢双舫, 刘雪萍, 何涛华, 朱鹏飞, 王秀哲, 应俊锋, 王璟明, 2020. 塔北隆起英买力地区舒善河组储层特征与控制因素[J]. 东北石油大学学报, 44(6): 82-94.

主要科研项目

[1] 中国石化油气成藏重点实验室开放基金塔里木盆地富满-顺北地区走滑断裂带超深层油

气差异富集研究(项目编号:33550007-22-ZC0613-0040),28万,主持,2022.10.01-2024.09.30

[2] 国家自然科学基金面上项目严重降解原油生物降解程度分子标志物综合评价标准研究(项目编号:42272160),57万,技术关键岗,2023.01-2026.12

[3] 中国石油化工股份有限公司江苏田分公司(勘探开发研究院)攻关项目高邮凹陷阜二段精细油源对比与页岩富集模式研究(项目编号:31450008-22-ZC0607-0007),46万,技术关键岗,2022.09-2023.09

[4] 中国石油天然气股份有限公司塔里木油田分公司攻关项目富满油田地化指标特征在开发生产应用中研究(项目编号:041022060118),189万,技术关键岗,2022.07-2024.07

[5] “十三五国家科技重大专项塔里木盆地奥陶系-寒武系有效烃源岩地球化学特征及油气源对比研究 项目编号:2016ZX05004004-003) 197万,技术关键岗,2016.01-2020.12

[6] “十三五国家科技重大专项彭水地区常压页岩气勘探开发示范工程 项目编号:2016ZX05061), 240万,作为技术骨干,2016.01-2020.08

[7] 中石油塔里木油田研究院科技攻关项目塔北陆相油气系统富集规律及目标优选(项目编号: 041019100036) , 198万,作为技术骨干,2019.11-2021.10

[8] 吉林油田勘探开发研究院科技攻关项目柳河盆地柳参1井单井地质综合评价(项目编号:JS2015-W-13-JZ-20-38) 73.35万,技术关键岗,2015.09-2016.10

[9] 中石化股份有限公司科技专项致密储层成储下限及分级评价标准(项目编号:P15028) 99万,技术关键岗,2015.09-2017.12

主要荣誉

[1] 2019 获博士研究生国家奖学金 (国家级)

[2] 2020 获得国家留学基金委国家公派出国留学奖学金 (国家级)

[3] 2019 获教育部科学技术进步奖二等奖 (省部级)

[4] 2021 被评为山东省优秀毕业生” (省部级)

[5] 2021 获石油图片百科优秀奖(厅局级)

[6] 2022 获中国石油大学(华东)优秀博士学位论文

[7] 2017 获中国石油大学(华东)一等学业奖学金

[8] 2021 获中国石油大学(华东)优秀研究生

[9] 2016 获中国石油大学(华东)优秀研究生干部

[10] 2016 获国际会议优秀青年论文奖

[11] 2019 获国际会议“Distinction Paper Award”

[12] 2020 获中国石油大学(华东)地学院排球赛亚军

授权发明专利

[1] 何涛华,卢双舫,李文浩,孙东权,朱鹏飞,应俊锋,王秀哲.基于族组分端元碳同位素定量解析深层复杂混源油的方法[P].中国专利:CN201911080661.92020-01-10.(已授权)

[2] 李文浩,卢双舫,谭昭昭,周能武,何涛华.一种裂缝型致密储层微裂缝分级定量表征方法[P].中国专利:CN201710110636.52017-08-18.(已授权)

 

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