王广伟（副教授）

»姓名：王广伟

»系属：资源系

»学位：博士

»职称：副教授

»专业：储层地质学

»导师类别：硕士生导师

»电子邮箱：wanggw@upc.edu.cn

»通讯地址：黄岛区长江西路66号工科楼C座

»概况：王广伟，副教授，硕士研究生导师，泰山学者青年专家。长期从事油气储层地质学、成岩作用、白云岩化、流体-岩石相互作用等研究，第一/通讯作者在MPG、JPSE、GSE、沉积学报等期刊发表论文17篇

◎研究方向

储层地质学、成岩作用与孔隙演化、流体-岩石相互作用

◎教育经历

2012/09-2015/06，中国石油大学(北京)，地质资源与地质工程，博士

2009/09-2012/07，中国石油大学(北京)，矿产普查与勘探，硕士

2005/09-2009/07，山东科技大学，地质工程，学士

◎工作经历

2020.01-至今中国石油大学(华东)，副教授

2017.08-2019.12中国石油大学(华东)，讲师

2015.07-2017.07山东科技大学，博士后

◎学术兼职

中国地质学会会员，AAPG Bulletin，Marine and Petroleum Geology，Journal of Petroleum Science and Engineering等十余个期刊审稿人。

◎主讲课程

《油田地下地质学》、《石油地质勘探概论》等课程

◎指导研究生及博士后

指导或协助指导博士研究生5名，硕士4名,其中1人荣获AAPG全球助研金。

◎承担项目

(1)中石油塔里木重大专项课题二专题三《白云岩储层发育与保存机理》，2019/01-2023/12，主持

(2)国家自然科学基金青年基金项目《流体-岩石相互作用下白云岩结构与孔隙协同演化机制》，2020/01-2022/12，主持

(3)中石化勘探分公司横向项目《川东及川中地区下二叠统白云岩储层成因及差异分析》，2022/07-2023/06，主持

(4)中石油校企合作项目《四川盆地海相碳酸盐岩优质储层成因与保存机理》，2020/01-2020/12，主持

(5)横向项目《白云岩化和原油裂解模拟实验》，2019/09-2019/12，主持

(6)中国博士后科学基金(一等资助)项目《水-岩-烃相互作用控制下的白云岩储层发育演化》，2016/02-2017/07,主持

(7)中科院A类战略性先导科技项目一课题三子课题5《塔里木盆地重点地区深层油气运聚机理与富集模式》，2017/01-2021/12，参与

(8)国家自然科学基金-面上项目《叠合盆地深层油气成藏期的Re-Os同位素示踪研究：以阿满过渡带和普光、元坝气田为例》，2019/01-2022/12，参与

◎获奖情况

◎荣誉称号

(1)泰山学者青年专家（2021）

(2)青岛市西海岸新区领军人才（2023）

◎著作

◎论文

[1]Wang Guangwei*, Hao Fang, Zou Huayao, et al., 2023. Causes of variation in the concentration and distribution of H₂S in carbonate reservoirs of the Feixianguan Formation, Lower Triassic in the eastern Sichuan Basin. Geoenergy Science and Engineering 221, 211381.

[2]Wang Guangwei*, Hao Fang, Zou Huayao, et al., 2023. Influence of TSR on oxygen isotopic composition of calcite cements in carbonates of the Triassic Feixianguan and Permian Changxing Formations in the Sichuan Basin, China. Frontiers in Earth Science 10, 1030472.

[3]王广伟.白云岩化作用与白云岩孔隙的形成——来自实验模拟交代反应的启示.沉积学报. 2023.https://doi.org/10.14027/j.issn.1000-0550.2022.062.

[4] Zhang Wenbo,Wang Guangwei*, Hao Fang, et al., 2023. Characteristics and origin of the tight grainstone reservoirs of the Yijianfang Formation, Middle Ordovician in the Shunnan area, Tarim Basin. Geoenergy Science and Engineering 225, 211670.

[5] Quan Li,Wang Guangwei*, Zhang Ya, et al., 2023. Early dolomitization and subsequent hydrothermal modification of the Middle Permian Qixia Formation carbonate in the northwest Sichuan Basin. Geoenergy Science and Engineering 221, 211384.

[6] Wang Ping,Wang Guangwei*, Chen Yongquan, et al., 2023. Formation and preservation of ultra-deep high-quality dolomite reservoirs under the coupling of sedimentation and diagenesis in the central Tarim Basin, NW China. Marine and Petroleum Geology 149, 106084.

[7] Zhou Ling,Wang Guangwei*, Zhang Ya, et al., 2023. Characteristics and origin of the Lower Triassic Feixianguan Formation dolostones on the west side of Kaijiang–Liangping Trough, northeastern Sichuan Basin, China. Marine and Petroleum Geology 147, 105956.

[8]Wang Guangwei*, Hao Fang, Zhang Wenbo, et al., 2022. Characterization and origin of micropores in tight gas grainstones of the Lower Triassic Feixianguan Formation in the Jiannan gas field, Sichuan Basin. Marine and Petroleum Geology 139, 105609.

[9] Zhou Ling,Wang Guangwei*, Hao Fang, et al., 2022. The quantitative characterization of stylolites in the limestone reservoirs of the Lower Triassic Feixianguan Formation, northeastern Sichuan Basin: Insights to the influence of pressure solution on the quality of carbonate reservoirs. Marine and Petroleum Geology 139, 105612.

[10] Zhang Wenbo,Wang Guangwei*, Cao Zicheng, 2021. Reactive transport modeling of reflux dolomitization of carbonate platforms: Enlightenment from Yingshan Formation in Shunnan area, Tarim Basin. Minerals 11(12), 1340.

[11]Wang Guangwei, Hao Fang, Chang Xiangchun, Lan C., Li Pingping, Zou Huayao, 2017. Quantitative analyses of porosity evolution in tight grainstones: A case study of the Triassic Feixianguan formation in the Jiannan gas field, Sichuan Basin, China. Marine and Petroleum Geology 86, 259-267.

[12]Wang Guangwei, Chang Xiangchun, Yin Wei, et al., 2017. Impact of diagenesis on reservoir quality and heterogeneity of the Upper Triassic Chang 8 tight oil sandstones in the Zhenjing area, Ordos Basin, China. Marine and Petroleum Geology 83, 84-96.

[13]Wang Guangwei, Hao Fang, Li Pingping, et al., 2016. Use of rare earth element geochemistry to constrain the source of dolomitizing fluid for dolomitization of the Lower Triassic Feixianguan Formation, Jiannan area, China. Journal of Petroleum Science and Engineering 138, 282-291.

[14]王广伟,李平平,郝芳,等.建南地区飞仙关组三段白云岩的分布与成因：基于三维地震、岩石学和地球化学的综合分析.沉积学报, 2016, 34(1):168-180.

[15]Wang Guangwei, Li Pingping, Hao Fang, et al., 2015. Dolomitization process and its implications for porosity development in dolostones: a case study from the Lower Triassic Feixianguan Formation, Jiannan area, eastern Sichuan Basin, China. Journal of Petroleum Science and Engineering 131, 184-199.

[16]Wang Guangwei, Li Pingping, Hao Fang, et al., 2015. Impact of sedimentology, diagenesis, and solid bitumen on the development of a tight gas grainstone reservoir in the Feixianguan Formation, Jiannan area, China: implications for gas exploration in tight carbonate reservoirs. Marine and Petroleum Geology 64, 250-265.

[17]Wang Guangwei, Li Pingping, Hao Fang, et al., 2015. Origin of dolomite in the third member of Feixianguan Formation (Lower Triassic) in the Jiannan area, Sichuan Basin, China. Marine and Petroleum Geology 63, 127-141.

◎专利