Google scholar: https://scholar.google.com.hk/citations?hl=en&user=PIuISY8AAAAJ&view_op=list_works
Researchgate: https://www.researchgate.net/profile/Yujie-Yuan-4
ORCID:
https://orcid.org/0000-0003-3931-2071
一、教育经历(Education)
2017.01-2020.01 澳大利亚科廷大学Curtin University, 石油工程系, 石油地质学, 博士
(西澳大利亚页岩油气储层多尺度精细地质评价及优质“甜点段”高精度识别与划分,导师:Reza Rezaee教授)
2011.09-2016.10 中国石油大学(华东), 石油工程学院, 石油工程专业, 学士及硕士学习, 导师:谷建伟教授、侯健教授
二、工作及学术经历(Employment)
2021.06- 云南大学,地球科学学院,地质学系,副教授
2020.02-2021.02 澳大利亚伊迪斯科文大学Edith Cowan University (ECU)工程学院,石油工程系,讲师
兼任澳大利亚ECU可持续能源研发中心Centre for Sustainable Energy and Resources (CSER),研究骨干
2019.05-2019.12 澳大利亚科廷大学Curtin University,石油工程系 (Petroleum Engineering Course for BSc and MSc),助讲
2017.03-2020.01 澳大利亚科廷大学Curtin University,海洋油气工程 (Subsea Engineering Course for MSc),助讲
2015.02-2015.08 澳大利亚科廷大学Curtin University,石油工程系,科研实习
研究内容:核磁共振技术(NMR)定量厘定非常规页岩储层黏土束缚水的横线弛豫时间(T2)截止值,导师:Reza Rezaee教授
三、研究领域及方向(Research Area)
● 非常规页岩油气地质与工程一体化;
● 页岩油气储层优质“甜点段”精细识别与划分;
● CO2提高非常规油气采收率与长效地质封存一体化;
● CO2地质封存(CCS);
● 天然氢、地下储氢(UHS);
四、代表性科研项目(主持)(Research Projects-PI)
[1] 国家自然科学基金青年项目,“陆相页岩油储层CO2驱作用下的微观孔隙结构变化及其机理”,30万,主持,在研
[2] 云南省基础研究专项面上项目,“滇东北地区五峰组-龙马溪组页岩储层‘甜点段’划分与优势岩相微纳米孔隙结构研究”,10万,主持,在研
[3] 云南省基础研究专项青年项目,“原位核磁共振研究超临界CO2改善页岩气储层物性的作用机理”,5万,主持
[4] 重庆市科技局横向项目,“黔江正阳盆地正阳组地层年龄格架研究”,30万,主持
[5] 煤矿灾害动力学与控制国家重点实验室开放课题,“超临界CO2强化川滇地区页岩气解吸与地质封存一体化机理研究”,10万,主持
[6] 云南大学双一流建设人才引进项目,“全球重大地质事件对川滇地区页岩油气富集的作用机制研究”,50万,主持
[7] 自然资源部深地动力学重点实验室开放研究课题,“黏土矿物对超临界二氧化碳 (scCO2) 置换解吸页岩气的影响”,5万,主持,结题
五、科研成果(Research Publications)
1. 第一及通讯作者论文(* 通讯作者)
[1] Yuan, Y.*, Rezaee, R., Zhou M., Iglauer S., 2023, A comprehensive review on shale studies with emphasis on nuclear magnetic resonance (NMR) technique. Gas Science and Engineering 120, 205163 (中科院SCI二区,TOP) https://doi.org/10.1016/j.jgsce.2023.205163
[2] Yuan, Y.*, Rezaee R., Gu J., Wu S., Al-Khdheeawi E. A., Wang J., Pan B., 2023. High-resolution coupling of stratigraphic ‘sweet-spot’ lithofacies and petrophysical properties: A multiscale study of Ordovician Goldwyer Formation, Western Australia. Petroleum Science 20, 1312-1326 (中科院SCI一区, Top) https://doi.org/10.1016/j.petsci.2022.11.001
[3] Yuan, Y.*, Rezaee, R., Yu, H., Zou, J., Liu, K., Zhang, Y. 2021. Compositional controls on nanopore structure of different shale lithofacies: A comparison with pure clays and isolated kerogens. Fuel 303, 121079. (中科院SCI一区, Top) https://doi.org/10.1016/j.fuel.2021.121079
[4] Yuan, Y.*, Rezaee, R., Zou, J., Liu, K. 2021. Pore-scale study of the wetting behaviour in shale, isolated kerogen and pure clay. Energy & Fuels, 35 (22), 18459-18466. (中科院SCI三区) https://doi.org/10.1021/acs.energyfuels.1c02721
[5] Yuan, Y.*, Rezaee, R., Verrall, M., Hu, S., Zou, J., Testmant, N. 2018. Pore characterization and clay bound water assessment in shale with a combination of NMR and low-pressure nitrogen gas adsorption. International Journal of Coal Geology 194, 11-21. (中科院SCI一区,Top) https://doi.org/10.1016/j.coal.2018.05.003
[6] Yuan, Y.*, Rezaee, R. 2019. Fractal analysis of the pore structure for clay bound water and potential gas storage in shales based on NMR and N2 gas adsorption. Journal of Petroleum Science and Engineering 177, 756-765. (中科院SCI二区) https://doi.org/10.1016/j.petrol.2019.02.082
[7] Yuan, Y.*, Rezaee, R., Al-Khdheeawi, E., Hu, S., Verrall, M., Zou, J., Liu, K. 2019. Impact of Composition on Pore Structure Properties in Shale: Implications for Micro-/Mesopore Volume and Surface Area Prediction. Energy & Fuels 33, 9619-9628. (中科院SCI三区) https://doi.org/10.1021/acs.energyfuels.9b02232
[8] Yuan, Y.*, Rezaee, R. 2019. Impact of Paramagnetic Minerals on NMR-Converted Pore Size Distributions in Permian Carynginia Shales. Energy & Fuels 33, 2880-2887. (中科院SCI三区) https://doi.org/10.1021/acs.energyfuels.8b04003
[9] Yuan, Y.*, Rezaee, R. 2019. Comparative porosity and pore structure assessment in shales: Measurement techniques, influencing factors and implications for reservoir characterization. Energies 12, 2094. (中科院SCI四区) https://doi.org/10.3390/en12112094
[10] Yuan, Y., Rezaee, R., Han, T., Verrall, M., Hu, S., Zou, J., 2018. Pore characterization and fluid distribution assessment of gas shale. Proceedings of 80th EAGE Conference and Exhibition 2018, p.1 - 5. (EI) https://doi.org/10.3997/2214-4609.201800809
[11] Mahdi, D. S., Al-Khdheeawi, E. A.*, Yuan, Y. *, Zhang, Y., and Iglauer, S., 2021, Hydrogen underground storage efficiency in a heterogeneous sandstone reservoir. Advances in Geo-Energy Research, 5, 437-443. (中科院SCI一区) doi: 10.46690/ager.2021.04.08
[12] Xu, J., Wu, S.*, Liu, J., Yuan, Y.*, Cui, J., Su, L., et al., 2021, New Insights into Controlling Factors of Pore Evolution in Organic-rich Shale. Energy & Fuels 35 (6), 4858–4873. (中科院SCI三区) https://doi.org/10.1021/acs.energyfuels.0c04189
[13] Zou, J.*, Rezaee, R., Yuan, Y. *, Liu, K., Xie, Q., You, L. 2020. Distribution of adsorbed water in shale: An experimental study on isolated kerogen and bulk shale samples. Journal of Petroleum Science and Engineering 187, 106858. (中科院SCI二区) https://doi.org/10.1016/j.petrol.2019.106858
[14] Wang J.#*, Luo L. #, Yuan, Y.*, Chu, C., He, H. 2024. Jurassic tectonic regime transition of the southwestern Yangtze block, SW China: evidence from sedimentary provenance analysis. Journal of the Geological Society. (中科院SCI三区)
[15] Luo L., Wang J.*, Yuan Y.*, Liu Z., Jiao M., Zhang Y., Zhang S., 2023, Detrital zircon geochronology of Early Jurassic successions in the Central Yunnan Basin, SW China: implications of sedimentary provenance and tectonic evolution, Journal of Earth Science (accepted, in press)
[16] Wang, J.#, Yuan, Y. #, Zhang, D., Chang, S., 2021, Detrital zircon geochronology of Late Cretaceous successions in the Ganzhou basin, South China: Evidence of a major tectonic transition Mesozoic Biological Events and Ecosystems in East Asia. Geological Society of London. (EI)https://doi.org/10.1144/SP521-2021-168
2. 其他合作期刊论文
[1] Ashraf U., Anees, A., Zhang, H., Ali M., Thanh H. V., Yuan, Y., 2024, Identifying payable cluster distributions for improved reservoir characterization: a robust unsupervised ML strategy for rock typing of depositional facies in heterogeneous rocks, Geomechanics and Geophysics for Geo-Energy and Geo-Resources 10, 131. https://link.springer.com/article/10.1007/s40948-024-00848-9
[2] Al-Khdheeawi, E. A., Mahdi, D. S., Yuan, Y., and Iglauer, S., 2023, Influence of clay content on CO2-rock interaction and mineral-trapping capacity of sandstone reservoirs, Energies 16, 3489. https://doi.org/10.3390/en16083489
[3] Han J., Arns C., Yuan Y, Qin, C.Z., 2023, SVM-based fast 3D pore-scale rock-typing and permeability upscaling for complex rocks using Minkowski functionals, Advances in Water Resources 183, 104605. https://doi.org/10.1016/j.advwatres.2023.104605
[4] Pan, B., Yin, X., Zhu, W., Yang, Y., Ju, Y., Yuan, Y., Iglauer, S., 2022. Theoretical study of brine secondary imbibition in sandstone reservoirs: Implications for H2, CH4, and CO2 geo-storage. International Journal of Hydrogen Energy 47, 18058-18066. https://doi.org/10.1016/j.ijhydene.2022.03.275
[5] Chen, S., Yu, H., Li, X., Lebedev, M., Lu, M., Yang, Z., Cheng, W., Yuan, Y., Ding, S., Johnson, L., 2022, A new approach to calculate water saturation in shale reservoirs. Energy & Fuels 36, 1904–1915.https://doi.org/10.1021/acs.energyfuels.1c04067
[6] Li, X., Lebedev, M., Lu M., Yuan, Y., Zhan, J., Yang, Z., Cheng, W., Yu, H., 2022, The influence of CO2 saturated brine on microstructure of coal: implications for carbon geo-sequestration. Frontiers in Earth Science, 10. https://doi.org/10.3389/fenrg.2022.802883
[7] Liu, K., Jin, Z., Zeng, L., Yuan, Y., Ostadhassan, M. 2021. Determination of clay bound water in shales from NMR signal: the fractal theory. Energy & Fuels, 35 (22), 18406-18413. https://doi.org/10.1021/acs.energyfuels.1c02285
[8] Dong, H., Zhang, Y., Lebedev, M., Arif, M., Yuan, Y., Iglauer, S., 2021. Simulating Coal Permeability Change as a Function of Effective Stress Using a Microscale Digital Rock Model. Energy & Fuels 35 (10), 8756–8762. https://doi.org/10.1021/acs.energyfuels.1c00619
[9] Zhang, Z., Li, P., Yuan, Y., Liu, K., Hao, J., Zou, H., 2020, Quantitative Prediction of Fractures in Shale Using the Lithology Combination Index: Minerals 10, 569. https://doi.org/10.1071/AJ16184
[10] Liu, K., Ostadhassan, M., Sun, L., Zou, J., Yuan, Y., Gentzis, T., Zhang, Y., Carvajal-Ortiz, H., Rezaee, R. 2019. A comprehensive pore structure study of the Bakken Shale with SANS, N2 adsorption and mercury intrusion. Fuel 245, 274-285. https://doi.org/10.1016/j.fuel.2019.01.174
[11] Liu, K., Ostadhassan, M., Hackley, P., Gentzis, T., Zou, J., Yuan, Y., Carvajal-Ortiz, H., Rezaee, R., Bubach, B. 2019. Experimental Study on the Impact of Thermal Maturity on Shale Microstructures Using Hydrous Pyrolysis. Energy & Fuels 33 (10), 9702-9719. https://doi.org/10.1021/acs.energyfuels.9b02389
[12] Zou, J., Rezaee, R., Yuan, Y., 2018, Investigation on the adsorption kinetics and diffusion of methane in shale samples. Journal of Petroleum Science and Engineering 171, 951-958. https://doi.org/10.1016/j.petrol.2018.08.010
[13] Ren, S., Liu, Y., Gong, Z., Yuan, Y., Yu, L., Wang, Y., Xu, Y., Deng, J. 2018. Numerical simulation of water and sand blowouts when penetrating through shallow water flow formations in deep water drilling. Journal of the Ocean University of Qingdao 17, 17-24.
[14] Testamanti, N., Rezaee, R., Yuan, Y., Pan, D., 2017. Determination of T2 cut-off for shale reservoirs: a case study from the Carynginia formation, Perth Basin, Western Australia. Proceedings of the APPEA conference and exhibition, 57 (14-17 May 2017), 664-668, Online, The APPEA Journal 57, (2), 664-668. https://doi.org/10.1071/AJ16184
[15] Yu, H., Wang, Z., Rezaee, R., Su, Y., Tan, W., Yuan, Y., Zhang, Y., Xiao, L., Liu, X., 2017. Applications of nuclear magnetic resonance (NMR) logs in shale gas reservoirs for pore size distribution evaluation. Proceedings of Unconventional Resources Technology Conference 2017, 9 pages, Online, Unconventional Resources Technology Conference (URTEC). https://doi.org/10.15530/URTEC-2017-2663389
3. 学术报告及国际交流
[1] Yuan, Y., 页岩储层非均质性评价与甜点发育及机理,第一届地球能源前沿论坛,国际特邀专场(线上口头报告)
[2] Yuan, Y., Rezaee, R., 页岩微纳米孔隙结构发育及演化机理,中南大学,中国长沙(口头报告)
[3] Yuan, Y., Rezaee, R., 页岩储层多尺度精细表征,西北大学,中国西安(口头报告)
[4] Yuan, Y., Rezaee, R., Advanced NMR Interpretation for Shale Evaluation. FESAus 2020 Technical Event, Perth, Australia. (Oral Presentation)
[5] Yuan, Y., Rezaee, R., Pore Structure Evaluation and Fluid Assessment for Permian Carynginia Shale, InterPore 10th Annual Meeting and Jubilee, 2018, New Orleans, USA. (Oral Presentation)
[6] Yuan, Y., Rezaee, R., Han, T., Verrall, M., Hu, S., Zou, J., Pore characterization and fluid distribution assessment of gas shale, EAGE Annual 2018- the 80thConference and Exhibition, Copenhagen, Denmark. (Oral Presentation)
[7] Yuan, Y., Rezaee, R., Impact of clay minerals on pore structure properties in Permian Carynginia and Ordovician Goldwyer shales, OCPC Conference, 2018.11.26-, Malaysia. (Oral Presentation)
[8] Yuan, Y., Rezaee, R., Comparative multi-scale pore structure assessment in shales, OCPC Conference, 2017, Malaysia. (Oral Presentation)
[9] Yu, H., Wang, Z., Rezaee, R., Su, Y., Tan, W., Yuan, Y., Zhang, Y., Xiao, L., Liu, X., NMR logs in tight gas sandstone reservoirs pore structure evaluation, 2017, Unconventional Resources Technology Conference, Austin, Texas, USA.
4. 发明专利
[1] 一种饱和页岩孔隙流体分离及饱和度计算的实验方法,专利号:CN106525688A,授权日期: 2020. 02. 07,排名: 2/2
[2] 岩心中微裂缝的造缝方法、微裂缝密度的测量方法和模型建立方法及微裂缝岩心的制备方法, 专利号:CN106248712A, 授权日期: 2018.02.06,排名9/9
[3] 一种基于井地电位法的油水分布识别方法, 专利号:CN105822302A,授权日期: 2016. 08. 03,排名10/16
六、js金沙3983总站指导及教学项目(Student Supervision & Teaching Experience)
2021-至今(云南大学)
l 招收指导9名硕士研究生:
张 宇(资源与环境专业),本科毕业于中国矿业大学(北京),硕士在读
于子涵(矿物、岩石、矿床学专业),本科毕业于东北石油大学,硕士在读
周钰菡(矿物、岩石、矿床学专业),本科毕业于长江大学,硕士在读
华健豪(资源与环境专业),本科毕业于山西科技大学,硕士在读
曹禹昕(矿物、岩石、矿床学专业),本科毕业于长江大学,硕士在读
王梦磊(矿物、岩石、矿床学专业),本科毕业于山东石油化工大学,硕士在读
王金建(资源与环境专业),本科毕业于燕山大学。硕士毕业签约中石油海洋工程有限公司。
邱 鸿(资源与环境专业),本科毕业于南昌工程学院。硕士毕业签约云南水利水电职业学院事业编岗位。
焦梦妍(矿物、岩石、矿床学学专业),本科毕业于西安石油大学。硕士毕业赴中国石油大学(华东)攻读博士学位。
l 指导研究生科研创新项目:
焦梦妍,“四川盆地五峰组-龙马溪组黑色页岩有机质差异富集及主控因素”,研究生科研创新项目(2021Y358),已结题。
l 指导本科生创新创业训练计划及毕业论文:
曹祥云瑞,周俊蕊等,CO2在页岩储层中的封存性评价(省级),在研
张语彤,马云腾,沈雅琪,吴佳怡,奥陶纪—志留纪之交火山活动对黑色页岩中有机质富集的影响机制研究(省级),在研
马云腾,张园,杨雪清,吴昀霞,张语彤, 滇东北地区五峰组-龙马溪组优质页岩储层评价(国家级),已结题。
潘炳林,骆敏,刘英梅,叶资源,超临界CO2在不同页岩岩相中的作用规律(校级),已结题。
l 承担课程:
《沉积岩石学》(本科生,专业必修课,64学时,专业班)
《科研训练及创新研究》(本科生,专业必修课,72学时,专业班+菁英班)
《地学实验室安全知识》(研究生,专业必修课,18学时,全体研一js金沙3983总站)
2017-2021年度(澳大利亚伊迪斯科文大学,科廷大学)
l 承担3门本科生+硕士研究生课程主讲兼课程负责人,承担 3门本科生、硕士研究生课程助讲。
《Petroleum Geology》石油地质学(本科生+硕士研究生),石油工程专业课,伊迪斯科文大学(ECU),主讲及课程负责人,2020-2021
《Petrophysics and Formation Evaluation》岩石物理与测井解释(本科生+硕士研究生),石油工程专业课,ECU,主讲及课程负责人,2020-2021
《Introduction to Energy and Resource Engineering》能源工程概论(本科生,200+人),工程学院基础必修课,ECU,课程创建、编撰及主讲负责人,2020-2021
《Introduction to Engineering》工程学概论(本科生,300+人),工程学院基础必修课,助讲,ECU,2020
《Petrophysics and Reservoir Properties》(本科生+硕士研究生),石油工程专业课,助讲,科廷大学, 2019
《Introduction to Offshore Platforms and Transport》(本科生+硕士研究生),石油工程选修课,助讲,科廷大学, 2017-2019
l 指导10余名本科及硕士研究生(BEng/MEng)开展毕业设计及毕业论文撰写。
协助指导1名博士研究生(HDR)开展核磁共振研究及毕业论文撰写。
Raghuma Reddy CHENGAL REDDY (MEng);Nithin RADHAKRISHNA (MEng);Kaartikgayan S (BEng);Kaab AL SADAIRI (BEng. Hon);Suraj DEVKOTA (BEng);Tapan Ashokkumar PATEL (BEng);Ghazanfer ABBASI (HDR);Dek Yiong WONG (MEng);Xingjia YAN (BEng)等
七、学术兼职(Professional & Academic Activities)
l 科学/青年编委:
Advances in Geo-Energy Research (ISSN 2207-9963,中科院SCI一区),第一、二、三、四届青年编委,2021-至今
International Journal of Coal Science & Technology (ISSN 2095-8293,中科院SCI一区),第一、二届科学编辑,2022-2024
Petroleum & Petrochemical Engineering Journal (ISSN 25784846),科学编委,2023-至今
l 学术会议召集人:
第一届地球能源前沿论坛,专题11:非常规储层形成机理与非均质性评价。
第四届全国地学研究生论坛,专题8:非常规能源资源与勘查评价。
l 专题客座主编::
《GeoEnergy Science and Engineering》Special Issue in 2023, 2024-Eng (ISSN 2673-4117),
Co-edit with Prof. Reza Rezaee, Curtin University
https://www.mdpi.com/journal/eng/special_issues/3945Y6QLJ8
《Subsurface Energy and Environmental Protection》Special Issue in 2023-Energies (ISSN 1996-1073),
Co-edit with Prof. Xiaopu Wang, China University of Petroleum (East China)
https://www.mdpi.com/journal/energies/special_issues/SE_EP
《Characterization of the Unconventional Continental Shale Oil Reservoirs》Special Issue in 2022-Geofluids (ISSN 1468-8115),
Co-edit with A. Prof. Kouqi Liu (Peking University),
Prof. Mehdi Ostadhassan (Northeast Petroleum University),
Prof. Hui Pu (University of North Dakota)
https://www.hindawi.com/journals/geofluids/si/983958/
《Unconventional Oil and Gas Resources》Special Issue in 2021-Advances in Geo-Energy Research (ISSN 2207-9963),
Co-edit with Prof. Stefan Iglauer, Edith Cowan University (ECU),
Prof. Songtao Wu, China National Petroleum Corporation (CNPC, PetroChina)
https://www.researchgate.net/profile/Jianchao-Cai/publication/348991790_Call_for_Paper_Virtual_Special_Issue_Unconventional_Oil_and_Gas_Resources_UOGR/links/601a24dc299bf1cc269cdb31/Call-for-Paper-Virtual-Special-Issue-Unconventional-Oil-and-Gas-Resources-UOGR.pdf
l 期刊审稿人(累计审稿100余篇):
Water Resources Research,Fuel,Petroleum Science,Advances in Geo-Energy Research,International Journal of Coal Science & Technology,SPE Journal,Marine and Petroleum Geology ,Energy & Fuels,Journal of Petroleum Science and Engineering,Journal of Soils and Sediments,Geofluids,ACS Omega,Energies,Minerals,Journal of Earth Science,Energy Exploration & Exploitation,Energy Exploration & Exploitation等
八、招生简介
l 课题组每年招收2-3名研究生,欢迎有专业基础的优秀研究生、本科生积极参与并加入课题研究。
招生专业1:矿物、岩石、矿床学专业(学术硕士);
招生专业2:资源与环境工程(专业硕士)。
l 对于非常规油气领域及相关交叉学科具备探索热情和科研理想的同学可放宽专业背景要求。
l 学业优异者可推荐北京大学、中国石油勘探开发研究院、中国石油大学以及澳大利亚和美国知名高校开展交流或联合培养。
