研究领域
[1] 含油气盆地分析与资源评价、油气藏形成机理与分布规律
科研项目
[1] 国家自然科学基金面上项目,41872128,含盐泥页岩层系有机质成烃、成孔机制与定量表征,主持(2019-2022)
[2] 国家自然科学基金面上项目,41572106,泥页岩生烃演化过程中的油气滞留效应及对其含油气性的影响,主持(2016)
[3] 国家科技重大专项子课题,2016ZX05047001-006,塔里木盆地致密气地质评价与目标优选,主持(2016-2020)
[4] 国家油气重大专项项目下设任务(编号:2011ZX05006-006) : 南堡凹陷油气资源潜力评价(2011-2015)
[5] 中国石油科技创新基金研项目,2014D-5006-0106,页岩气赋存与释放机制及评价模型研究,主持(2014-2016)
[6] 北京高校青年英才计划,YETP0668,基于源岩残留油气作用的页岩含气量评价模型,主持(2013-2016)
[7] 国家自然科学基金青年科学基金项目,41102085,致密砂岩气藏形成的流体动力学机制,主持(2012-2015)
[8] 国家973项目课题专题,2011CB201105,中国西部叠合盆地深部油气复合成藏机制与分布模式,主持(2011-2015)
[9] 国土资源部页岩气战略选区项目,2009GYXQ15-07-13,华北及东北区页岩气综合研究和编图,主持(2012-2013)
代表性研究成果
[1] 姜福杰.专业型硕士研究生_研讨_互动_合作_教学模式探索与实践.中国地质教育,2018,72(2):57-59
[2] 姜福杰,柳广弟.理工科课堂合作学习与人文关怀教学模式探索与实践. 中国地质教育, 2017.12, 26(4): 4-6.
[3] 姜福杰,柳广弟.整体架构组织下的单元引导创新教学模式探索与实践. 中国地质教育, 2016.3, 25(1): 66-69.
[4] 姜福杰,高岗,吴欣松.专业型硕士研究生“油气勘探地质工程与评价”课程教学模式探索. 中国地质教育, 2015.3, 24(1): 49-51.
[5] 姜福杰,柳广弟,高先志,黄志龙.“石油地质学”课程教学过程的优化与实践. 中国地质教育, 2014.9, (3): 40-42.
[6] 姜福杰,庞雄奇,吴欣松,高岗,刘小平.“油气田勘探”课程教学过程优化与改革探索—以地质工程专业二学位本科为例. 中国地质教育, 2013.9, (3): 34-37.
[7] 《石油地质学》(第五版), “十二五”普通高等教育本科国家级规划教材,石油工业出版社,参编第五章 石油和天然气的运移,2018.
Publications
[1] Fujie Jiang*, Chunlin Zhang , Ke Wang, Zhengfu Zhao , and KesuZhong. Characteristics of micropores, pore throats, and movable fluids in the tight sandstone oil reservoirs of the Yanchang Formation in the southwestern Ordos Basin, China[J]. AAPG Bulletin, 2019, DOI:10.1306/03061917284.
[2] Fujie Jiang*, Xiongqi Pang*, Longlong Li, Qiaochu Wang, Yuexia Dong, Tao Hu, Lijun Chen, Jian Chen, Yingxun Wang. Petroleum resources in the Nanpu sag, Bohai Bay Basin, Eastern China[J]. AAPG Bulletin, 2018, 102(7): 1213-1237.SCI
[3] Fujie Jiang*, Tao Hu, Luofu Liu, Qifeng Wang, Xiaoyue Gao, Pengyuan Zhang, Hui Li, KangchaoNing, Ying Liu, ChenxiZhu.Geochemical and geological characteristics of the Jurassic continental black shale in the Southwestern Depression of TarimBasin[J]. Geological Journal, 2018, 3. DOI:10.1002/gj.3212. SCI
[4] F. Jiang*, Q. Wang, L. Liu, X. Gao, and T. Hu. Geological and geochemical characteristics of the Middle–Lower Jurassic shales in the Kuqa Depression, Tarim Basin: an evaluation of shale gas resources[J]. Australian Journal of Earth Sciences, 2018, 65(4): 557–573.SCI
[5] FujieJiang*, JianChen, ZiyangXu, ZhifangWang, TaoHu, DiChen, QinglinLi, YaxiLi. Organic Matter Pore Characterization in Lacustrine Shales with Variable Maturity Using Nanometer-Scale Resolution X-ray Computed Tomography[J].Energy & Fuels,2017,31(3):2669-2680.SCI
[6] Jian Chen, Fujie Jiang*, Tao Hu, Zhifang Wang, Ziyang Xu, Junwen Peng, Di Chen, LonglongLi.Experimental investigation of the characteristics of organic matter pores in Chang 7 member lacustrine shale from the Ordos Basin due to organic matter evolution induced by hydrous pyrolysis[J].Journal of Natural Gas Science & Engineering,2016,35:412-424. SCI; EI
[7] Fujie Jiang*, Xiongqi Pang*, Jing Bai, Xinhuai Zhou, Jianping Li, and YonghuaGuo.Comprehensive assessment of source rocks in the Bohai Sea area, eastern China[J]. AAPG Bulletin, 2016, 100(06): 969-1002. SCI; EI
[8] Fujie Jiang*, Di Chen, Jian Chen, Qianwen Li, Ying Liu, Xinhe Shao, Tao Hu, JinxiongDai.Fractal Analysis of Shale Pore Structure of Continental Gas Shale Reservoir in the Ordos Basin, NW China[J]. Energy & Fuels, 2016,30(6):4676-89. SCI; EI
[9] Fujie Jiang*, Di Chen, Zhifang Wang, Ziyang Xu, Jian Chen, Li Liu, YuyingHuyan, Ying Liu.Pore characteristic analysis of a lacustrine shale: A case study in the Ordos Basin, NW China[J]. Marine and Petroleum Geology, 2016,73:554-571. SCI; EI