（1）科研项目

[1]. 黑龙江省“揭榜挂帅”科技攻关项目，古龙页岩油油藏工程理论、CO₂提产机理及合理排采制度研究，2022.09.20-2025.06.30，潘哲君 主持

[2]. 南方海洋科学与工程广东省实验室（广州）项目，天然气水合物储层高精度表征及仿真模拟实验，2021.11.5-2022.4.30，潘哲君 主持

[3]. 国家自然科学基金面上项目，天然气藏致密盖层中气体非稳态扩散及散失量动态演化规律研究，2021.01-2024.12，赵越超 主持

[4]. 国家自然科学基金面上项目，CO₂水合物膜生长过程热质传递规律与分形动力学模型研究，2017.01-2020.12，赵越超 主持

[5]. 国家自然科学基金青年项目，含油、水多孔介质中CO₂扩散传质过程研究，2013.01-2015.12，赵越超 主持

[6]. 含水层热能储存实现低碳加热和冷却，英国工程和物理科学研究理事会，2021.5.1-2022.4.30,王建鹏，参与

[7]. 在工业集群附近实现地下含水层储氢,英国工程和物理科学研究理事会，2023.2-2024.1，王建鹏，参与

[8]. 深层碳酸盐岩地热储存多维度孔隙描述与致裂提效机理研究，合作单位中国地质科学院、中国石油化工股份有限公司石油工程技术研究和曼彻斯特大学，2019.1-2022.12,王建鹏，主持

[9]. 四川长宁天然气开发有限责任公司与宜宾吉林大学研究院合作项目,长宁页岩气勘探开发关键技术及应用，2020.10-2021.9,王建鹏，主持

[10]. 曼彻斯特大学(UoM)和中国石油天然气股份有限公司勘探开发研究院(RIPED),淡水湖盆致密油优质源岩成岩作用与成烃过程原位测试分析, 2020.06-2021.6，王建鹏，参与；

[11]. 致密岩石孔隙网络和气体输运的新型多尺度三维四维表征，英国自然环境研究理事会与曼彻斯特大学，2018.1-2021.6，王建鹏，参与

[12]. 摩洛哥盆地大洋缺氧事件II (OAE2)期间富含有机物黑色泥岩沉积的古环境和地球化学特征， 曼彻斯特大学与世界知名企业(BP, Carin,Chevron, Kosmos, Repsol, Woodside and Statoil）联合赞助联合赞助，2014.9-2019.6，王建鹏，主持

（2）学术论文

[1]. Z Han, L Zhang, J Zhou, Z Pan, S Wang, R Li. Effect of Mineral Grain and Hydrate Layered Distribution Characteristics on the Mechanical Properties of Hydrate-Bearing Sediments. Energies 16 (21), 7366, 2023.

[2]. R Li, L Zhang, J Zhou, Z Han, Z Pan, H Schüttrumpf. Investigation on permeability anisotropy in unconsolidated hydrate-bearing sediments based on pore-scale numerical simulation: Effect of mineral particle shape and pore-filling. Energy 267, 126456, 2023.

[3]. Z Han, L Zhang, J Zhou, Z Pan, S Wang, R Li. Effects of hydrate occurring mechanisms and saturation on the mechanical properties of hydrate-bearing sediments: Numerical study based on simplified DEM simulation. Journal of Natural Gas Science and Engineering 108, 104804, 2022.

[4]. Yuechao Zhao, Ming Li, Shuang Dong, Jia-nan Zheng*, Xu Lei, Cong Chen*, Yongchen Song. Fractal analysis on CO2 hydrate-bearing sands during formation and dissociation processes with NMR. Science of the Total Environment. 2023, 859, 160326.

[5]. Yuechao Zhao, Xu Lei, Jia-nan Zheng*, Ming Li, Michael L. Johns, Mingxing Huang, Yongchen Song*. High resolution MRI studies of CO2 hydrate formation and dissociation near the gas-water interface. Chemical Engineering Journal. 2021, 425, 131426.

[6]. Yuechao Zhao*, Yuying Zhang, Xu Lei, Yi Zhang, Yongchen Song*. CO2 flooding enhanced oil recovery evaluated using magnetic resonance imaging technique. Energy. 2020, 203, 117878.

[7]. Yuying Zhang, Yuechao Zhao*, Xu Lei, Mingjun Yang, Yi Zhang, Yongchen Song. Quantitatively study on methane hydrate formation/decomposition process in hydrate-bearing sediments using low-field MRI. Fuel. 2020, 262, 116555.

[8]. Yuechao Zhao*, Yongchen Song*. Experimental investigation on spontaneous counter-current imbibition in water-wet natural reservoir sandstone core using MRI. Magnetic Resonance in Chemistry. 2017, 55(6): 546-552.

[9]. Wang, K., Wang, J., Hao, J., Shi, C., Pan, S., Marathe, S., Taylor, K.G. and Ma, L., 2023. Nano-scale synchrotron imaging of shale swelling in the presence of water. Fuel, 344, p.127999.

[10]. Hu, F., Wang, J*. and Liu, Z., 2022. Sedimentary Characteristics of the Permian Zhesi Formation in Eastern Inner Mongolia, China: Implications for Sedimentary Background and Shale Gas Resource Potential. ACS omega, 7(49), pp.45287-45300.

[11]. Wang, J*.,Redfern, J., Bulot, L. G., & Taylor, K. G. (2023). Controls on preservation of organic matter during the Cenomanian Ocean Anoxic Event II (OAE2) and Turonian global sea-level rise: Agadir Basin, Morocco. Journal of African Earth Sciences, 207, 105069.

[12]. Hu, F., Liu, Z. J., Wang, J. (2022). Provenance and Tectonic Setting of the Middle Permian Zhesi Formation in Eastern Inner Mongolia, China: Implications from Petrology, Mineralogy, and Element Geochemistry.ACS Earth and Space Chemistry,6(7), 1823-1835.

[13]. Cui, H., Zhu, S.,Wang, J., Gao, Y., Wan, C., & Tong, H. (2022). Physical Properties, Pore-Throat Structure, Fractal Characteristics and Their Effects on the Gas-Bearing Capacity of Tight Sandstone: A Case Study from the Northern Tianhuan Depression, Ordos Basin, China. Natural Resources Research, 1-26.

[14]. Wang, J*., Bulot, L.G., Taylor, K.G., Redfern, J., 2021. Controls and timing of Cenomanian-Turonian organic enrichment and relationship to the OAE2 event in Morocco, North Africa. Marine and Petroleum Geology 128, 105013.

[15]. Wang, K., Chandler, M., Wang, J., Dowey, P., Storm, M., Taylor, K. G., ... & Ma, L. (2021). Time-lapse nanometre-scale 3D synchrotron imaging and image-based modelling of the response of shales to heating. International Journal of Coal Geology, 103816.

[16]. Huang, Y., Tan, X., Liu, E., Wang, J., & Wang, J. (2021). Sedimentary processes of shallow-marine turbidite fans: An example from the Huangliu Formation in the Yinggehai Basin, South China Sea. Marine and Petroleum Geology, 105191.

[17]. Hu, F., Liu, Z., Meng, Q., Wang, J., Song, Q., & Xie, W. (2018). Biomarker Characterization of Various Oil Shales Grades in the Upper Cretaceous Qingshankou Formation, Southeastern Songliao Basin, NE China. Oil Shale, 2018, 35(4).

（3）专利

[1]. 潘哲君，吴桐.一种高压氦气页岩孔隙度测试装置及方法，ZL202111344836.X.

[2]. 潘哲君，吴桐.页岩气和煤层气的混合气体吸附测试装置及方法，ZL202111344880.0.

[3]. 吴桐，潘哲君.一种页岩岩心渗透率实验装置和方法，ZL202111344807.3.

[4]. 吴桐，潘哲君.页岩裂隙和基质孔隙压缩系数测定装置及方法，ZL202111640933.3.

[5]. ZHEJUN PAN, TONG WU. HIGH-PRESSURE HELIUM SHALE POROSITY TESTING DEVICEAND METHOD. Patent No.: US 11733145B2.

[6]. 赵越超,宋永臣,毛晓坤,黄明星,毛晓坤,张毅,杨明军,郑嘉男.一种计算非均质岩石空间迂曲度和气体扩散系数分布的方法. ZL 202111284191.5.

[7]. 赵越超,宋永臣,毛晓坤,黄明星,蒋兰兰,杨明军,张毅,陈聪,刘瑜.一种核磁共振原位测量多孔介质内气-液扩散参数的方法. ZL 2021110198273.

[8]. 赵越超,宋永臣,黄明星,毛晓坤,郑嘉男,刘瑜,陈聪.一种原位测量多孔介质内CO₂-水扩散系数的方法. ZL 202111268097.0.

[9]. 赵越超,宋永臣,雷旭,张钰莹,杨明军,张毅,刘瑜,蒋兰兰,黄明星.基于核磁共振T₂谱计算含水合物多孔介质分形维数的方法. ZL 2019110764052.

[10]. 赵越超,宋永臣,吴迪,杨明军,蒋兰兰,陈俊霖.一种利用CT扫描分辨水合物与水两相的方法. ZL 201610362372.8.