首页 研究队伍 研究员
刘贺娟
个人信息Personal Information

性别:

职称: 研究员

职务:

学历: 博士研究生

电话: 027-87197565

传真:

电子邮件: hjliu@whrsm.ac.cn

通讯地址:

湖北省武汉市武昌区水果湖街小洪山2号 中国科学院武汉岩土力学研究所

简 历Personal Profile

  • 刘贺娟,女,河北省承德市人,博士,研究员,博士生导师。2007年和2010年分别于中国地质大学(北京)地质学(基地班)和矿产普查与勘探专业,获得理学学士和工学硕士学位,2014年于德国克劳斯塔尔工业大学获得石油工程专业博士学位。2015-2017年在加拿大国家科学研究院水、地质、环境研究中心(INRS-ETE)从事深部地热能潜力评价和开发方面的博士后研究,并作为访问学者在澳大利亚莫纳什大学和墨尔本大学开展为期2个月的学术交流。2018年作为海外引进人才受聘于中科院武汉岩土力学所工作,历任副研究员(2018-2020年)和研究员(2021-)。

    刘贺娟研究员长期从事能源地下储存领域(包括天然气地下储气库、孔隙介质地下储氢库、CO2地质封存和利用(CCUS))以及深部地热能潜力评价和储层改造等方面的研究,擅长复杂地质结构储层表征、低渗储层复合刺激增渗改造技术、考虑多场耦合作用的流体运移、反应和变形-破坏数值模拟、地质体密封性演化理论与评价。2020年入选湖北省女性科技创新人才,2022年入选湖北省三八红旗手。截至202310月,发表专著2部,各类学术论文70余篇,其中SCI论文50余篇,第一/通讯作者论文30余篇,主要成果发表在Journal of Petroleum Science and Engineering(top期刊) Construction and Building Materials(top期刊)Ecotoxicology and Environmental Safety(top期刊)Acta Geotechnica(top期刊)International Journal of Rock Mechanics and Mining Sciences(top期刊), Journal of Rock Mechanics and Geotechnical Engineering(top期刊), Applied Energy, Gas Science and Engineering, Rock Mechanics and Rock Engineering, Geothermics, Marine and Petroleum Geology, Environmental Earth Sciences等业界权威和知名学术期刊上;已经申请/授权国家发明专利30项,申请计算机软件著作权4项(已授权1项);参编国家能源行业标准1部(NB/T 10696-2021)。

    欢迎地质资源与地质工程、石油与天然气工程、土木工程、渗流力学、构造地质学、地质力学等相关研究领域的学生报考硕士生和博士生,联系邮箱hjliu@whrsm.ac.cn

  • 研究方向Research Focus
  • 社会任职Social Service
  • 承担科研项目情况Undertaking Research Projects

  • 能源地质储存的热-渗流-应力-化学耦合理论与安全高效注采调控技术

  • 中国(德国)研发创新联盟碳中和与能源转型专业委员会委员、中国岩石力学与工程学会地面岩石工程专业委员会委员,担任古地理学报编委,Advances in Geo-Energy Research期刊青年编委,工程科学与技术期刊青年编辑。目前担任Energy, Renewable and Sustainable Energy Reviews, Acta  Geotechnica, Journal of Structural Geology, Hydrogeology, Geothermics, Physics of Fluids, Journal of Rock Mechanics and Geotechnical Engineering, Geothermal Energy, Environmental Earth Science等几十个国际SCI期刊的审稿专家,担任《Journal of Porous Media》等SCI期刊客座编委。


  • 主主持国家自然科学基金项目、中科院人才项目、中石油等企业研发类项目等,参与国家自然科学基金区域联合基金,中科院B类先导科技专项培育等项目,作为执行负责人完成科技部中德国际合作项目、加拿大自然科学与工程研究基金项目、国际合作项目DECOVALEX2023、国际地科联IGCP项目等20余项。

    1)   中国科学研究院人才项目Y826031C01,多场耦合下流体注采对盖层和断层密封性能影响研究,2018.01-2023.12280万元,负责人

    2)   国家自然科学基金区域联合基金项目U22A20166,深部原位地热储层改造的三维体破裂与増透机制及技术研究,2023.1-2026.12270万元,合作方负责人

    3)   国家自然科学基金青年项目51809259,饱和二氧化碳热流体-花岗岩化学反应对裂缝储层渗透性和力学强度的影响研究,2019.01-2021.1223万元,负责人

    4)   中科院空间应用工程与技术中心项目CSU-JF-P-KY-2022-052, CSU-LSR模拟月壤委托研制,2022.10-2022.1293万元,负责人

    5)   中国石油集团科学技术研究院,RIPED-2021-JS-932,气藏储气库盖层动态密封机理及定量评价方法研究,2021.8-2022.7190万元,技术负责人

    6)   国家管网集团联合管道有限责任公司西气东输分公司GWHT20210043293,文23储气库断层动态密封性评价机理研究,2021.12-2023.4, 262.88万元,技术负责人

    7)   中国科学院B类先导科技专项培育项目XDPB21,深部储能基础理论与关键技术,2021.6-2022.5360万元

    8)   中国石油天然气集团有限公司科技项目2023DQ0707,枯竭油气藏大规模储氢基础理论与关键技术战略咨询研究,2023.6-2024.6400万元

    9)   国际合作项目DECOVALEX-2023TASK G: Safety Implications of Fluid Flow, Shear, Thermal and Reaction Processes within Crystalline Rock Fracture NETworks (SAFENET),中方任务负责人

    10) 深地科学与工程教育部重点实验室(四川大学)开放基金项目DESE202002,化学腐蚀对花岗岩水力裂缝扩展规律的影响研究,2020.01-2021.12,负责人

    11) 水力学与山区河流开发保护国家重点实验室(四川大学)开放基金项目SKHL1917,花岗岩质干热岩酸化腐蚀后水力激发对裂缝系统扩展影响,2020.01-2021.12,负责人

    12) 四川省科技计划项目2022YFSY0007,深部咸水层CO2地质封存与防灾研究,2022.01-2023.1280万元

    13) 加拿大自然科学与工程研究基金项目RDCPJ 451432-13, 加拿大魁北克省深部地热能开发潜力数值模拟评估(Estimation du potential g othermique profound au Qu bec par modelisation numerique)2015.01-2017.06, 70万加元,项目执行负责人

    14) 国际科技合作专项项目, 2012DFA60760,咸水层中CO2地质储存和资源化利用合作研究,2012.07-2015.06364万元,德方执行负责人

    15) 岩土力学与工程国家重点实验室开放基金项目,盐下超深大变形储层地应力场数值模拟与各向异性机理,2022.01-2023.12

    16) 岩土力学与工程国家重点实验室开放基金项目,孔隙特征对压实黏土吸附特性的影响机理研究,2020.01-2021.12

  • 代表论著Representative Treatises
  • 获奖及荣誉Awards and Honors

  • [1]  Liu H.J., Yang C.H., Liu J.J., Hou Z.M., Xie Y.C., Shi X.L. An overview of underground energy storage in porous media and development in China. Journal of Gas Science and Engineering, 2023, 205079.

    [2]  Liu H.J., Shi Y.K., Fang Z.M., Liu J.F.*, Zhang L.W., Tong R.C. Seepage characteristics of thermally and chemically treated Mesozoic granite from geothermal region of Liaodong Peninsula. Environmental Earth Sciences, 2021,80,599.

    [3]  Liu H.J., Ban S.N., Bedard K., Giroux B. Characteristics of Precambrian basement intruded by Cretaceous geological intrusions in Monteregian Igneous Province and their impacts on regional thermal structure. Advances in Geo-Energy Research, 2022, 6(3):206-220.

    [4]  Liu H.J., Wang H.W., Lei H.W., Zhang L.W., Bai M.X., Zhou L., 2020. Numerical modeling of thermal breakthrough induced by geothermal production in fractured granites, Journal of Rock Mechanics and Geotechnical Engineering, 12(4):900-916(top 期刊).

    [5]  Liu H.J., Li Q., Gou Y., Zhang L.W., Feng W.T., Liao J.X., Zhu Z.W., Wang H.W., Zhou L., 2020. Numerical investigation on cooling effect in geothermal reservoirs induced by injection of CO2 and cooled geothermal water. Oil & Gas Science and Technology-Rev. IFP Energies nouvelles 75(4):15, https://doi.org/10.2516/ogst/2020005.

    [6]  Liu H.J., Nasr M., 2019. Construction of deep thermal models based on integrated thermal properties used for geothermal risk management, Mathematical Geosciences,51(3):295-317.

    [7]  Liu H.J., Giroux B., Harris L., Quenette S., Mansour J., 2018. Numerical analysis of the role of radiogenic basement on temperature distribution in the St. Lawrence Lowlands, Quebec. Geothermal Energy 6: 30

    [8]  Liu H.J., Were P., 2018. Geostatistical analysis on the spatial variation of radiogenic elements in the crystalline basement of Grenville Province in the southwestern Quebec, Environmental Earth Sciences, 77: 731

    [9]  Liu H.J., Were P., Li Q., Gou Y., Hou Z.M., 2017. Worldwide status of CCUS technologies and their development and challenges in China. Geofluids, https://doi.org/10.1155/2017/6126505

    [10]     Liu H.J., Hou Z.M., Were P., Gou Y., Sun X.L., 2016. Numerical investigation of the  formation displacement and caprock integrity in the Ordos Basin (China) during CO2 injection operation. Journal of Petroleum Science and Engineering(JPSE)147:168-180 (top期刊)

    [11]     Liu H.J., Hou Z.M., Were P., Sun X.L., Gou Y., 2015. Numerical studies on CO2 injection-brine extraction process in a low-medium temperature reservoir system. Environmental Earth Science 73:6839-6854.

    [12]     Liu H.J., Hou Z.M., Were P., Gou Y., Sun X.L., 2014. Simulation of CO2 plume movement in multilayered saline formations through multilayer injection technology in the Ordos Basin, China. Environmental Earth Science 71:4447- 4462.

    [13]     刘贺娟,童荣琛,侯正猛*,窦斌,冒海军,黄广谭. 地下流体注采诱发地震综述及对深部高温岩体地热开发的影响. 工程科学与技术,2022, 54(1):1-14.

    [14]     Wang H.W., Liu H.J., Chen D.F., Wu H.D., Jin X.P. Thermal response of the fractured hot dry rocks with thermal-hydro-mechanical coupling effects. Geothermics, 2022, 104:102464.

    [15]     Mollaali M., Kolditz O., Hu M.S., Park C-H., Park J-W., McDermott C., Chittenden N., Bond A., Yoon J.S., Zhou J., Pan P.Z., Liu H.J., Hou W.B., Lei H.W., Zhang L.W., Nagel T., Barsch M., Wang W.Q., Nguyen S., Kwon S., Lee C., Yoshioka K*. Comparative verification of hydro-mechanical fracture behavior: Task G of international research project DECOVALEX-2023. International Journal of Rock Mechanics and Mining Sciences, 2023, 170, 105530(top 期刊).

    [16]     Xie Y.C., Hou Z.M., Liu H.J., Li C.B. Anisotropic time-dependent behavior and evaluation of the applicability of empirical creep models for shale under direct shear. Journal of Rock Mechanics and Geotechnical Engineering, 2023. https://doi.org/10.1016/j.jrmge.2023.05.001(top 期刊).

    [17]     Su X.P., Liu J.L., Liu H.J.*, Zhou L., Li H.L., Chen J.C. Comparison of shear and tensile fracture permeability in granite under loading-unloading stress conditions. Journal of Porous Media, 2021, 24(12):93-114.

    [18]     Gou Y., Hou Z.M., Li M.T., Feng W.T., Liu H.J.*, 2016. Coupled thermo-hydro-mechanical simulation of CO2 enhanced gas  recovery with an extended equation of state module for TOUGH2MP-FLAC3D, Journal of RockMechanics and Geotechnical Engineering, 8(6):904-920(top 期刊).

    [19]     Qiu X.S., Liu H.J.*, Liu M.C., Yang C.H., Mao H.J., Wang D.C., Ying Q.Q., Ban S.N. Pore structure evolution in sandstone of underground gas storage during cyclic injection and production based on nuclear magnetic resonance technology. Energies, 2023, 16, 2096.

    [20]     Tong R.C., Liu H.J.*, Song Y.J., Xie L.H., Ban S.N. Permeability and mechanical response of granite after thermal and CO2 dissolved solution stimulation. Energies, 2022, 15, 8280.

    [21]     Tong R.C., Liu H.J.*, Liu J.F., Shi Y.K., Xie L.H., Ban S.N. Meso-mechanical characteristics of granite with natural cracks after mud-acid corrosion. Energies, 2022,15, 721

    [22]     Cao C., Liu H.J.*, Hou Z.M., Mehmood F., Liao J.X., Feng X.T., 2020. A review of CO2 storage in view of safety and cost-effectiveness. Energies, 13, 600.

    [23]     Ding G.S., Liu H.J., Xia D.B., Wang D.C., Huang F.M., Guo H.T., Xie L.H., Guo Y.T., Wu M.Y., Mao H.J. Experimental study of the shear characteristics of fault filled with different types of gouge in underground gas storage. Energies, 2023, 16(7): 3119.

    [24]     Wei X.X., Shi X.L., Li Y.P., Li P., Ban S.N., Zhao K., Ma H.L., Liu H.J., Yang C.H. A comprehensive feasibility evaluation of salt cavern oil energy storage system in China. Applied Energy, 2023, 351:121807 (top 期刊).

    [25]     Zhao G.K., Guo Y.T., Yang C.H., Wang L., Guo W.H., Yang H.Z., Wu X.L., Liu H.J. Anisotropic mechanical behavior of ultra-deep shale under high in-situ stress, a case study in the Luzhou block of the southern Sichuan Basin, China. International Journal of Rock Mechanics and Mining Sciences, 2023, 170, 105536 (top 期刊).

    [26]     Xue Q., Zhang L.W., Mei K.Y., Wang L., Wang Y., Li X.C., Cheng X.W., Liu H.J. Evolution of structural and mechanical properties of concrete exposed to high concentration CO2. Construction and Building Materials, 2022, 343:128077 (top 期刊).

    [27]     Gou Y., Hou Z.M., Liu H.J., Zhou L., Were P., 2014. Numerical simulation of carbon dioxide injection for enhanced gas recovery (CO2-EGR) in Altmark natural gas field. Acta Geotechnica, 9:49-58 (top 期刊).

    [28]     Shu S., Lu Y.Y., Wu X., Liu H.J. Pollution characteristics and vertical cutoff wall optimization at an industrial contaminated site in China. Ecotoxicology and Environmental Safety, 2022, 235:113435(top 期刊).

     

     

    更多论文信息查看https://www.researchgate.net/profile/Hejuan-Liu

  • 2022年入选湖北省三八红旗手

    2020年入选湖北省女性科技创新人才

    2018年入选中科院青年人才

研究方向Research Focus

能源地质储存的热-渗流-应力-化学耦合理论与安全高效注采调控技术

社会任职Social Service

中国(德国)研发创新联盟碳中和与能源转型专业委员会委员、中国岩石力学与工程学会地面岩石工程专业委员会委员,担任古地理学报编委,Advances in Geo-Energy Research期刊青年编委,工程科学与技术期刊青年编辑。目前担任Energy, Renewable and Sustainable Energy Reviews, Acta  Geotechnica, Journal of Structural Geology, Hydrogeology, Geothermics, Physics of Fluids, Journal of Rock Mechanics and Geotechnical Engineering, Geothermal Energy, Environmental Earth Science等几十个国际SCI期刊的审稿专家,担任《Journal of Porous Media》等SCI期刊客座编委。


承担科研项目情况Undertaking Research Projects

主主持国家自然科学基金项目、中科院人才项目、中石油等企业研发类项目等,参与国家自然科学基金区域联合基金,中科院B类先导科技专项培育等项目,作为执行负责人完成科技部中德国际合作项目、加拿大自然科学与工程研究基金项目、国际合作项目DECOVALEX2023、国际地科联IGCP项目等20余项。

1)   中国科学研究院人才项目Y826031C01,多场耦合下流体注采对盖层和断层密封性能影响研究,2018.01-2023.12280万元,负责人

2)   国家自然科学基金区域联合基金项目U22A20166,深部原位地热储层改造的三维体破裂与増透机制及技术研究,2023.1-2026.12270万元,合作方负责人

3)   国家自然科学基金青年项目51809259,饱和二氧化碳热流体-花岗岩化学反应对裂缝储层渗透性和力学强度的影响研究,2019.01-2021.1223万元,负责人

4)   中科院空间应用工程与技术中心项目CSU-JF-P-KY-2022-052, CSU-LSR模拟月壤委托研制,2022.10-2022.1293万元,负责人

5)   中国石油集团科学技术研究院,RIPED-2021-JS-932,气藏储气库盖层动态密封机理及定量评价方法研究,2021.8-2022.7190万元,技术负责人

6)   国家管网集团联合管道有限责任公司西气东输分公司GWHT20210043293,文23储气库断层动态密封性评价机理研究,2021.12-2023.4, 262.88万元,技术负责人

7)   中国科学院B类先导科技专项培育项目XDPB21,深部储能基础理论与关键技术,2021.6-2022.5360万元

8)   中国石油天然气集团有限公司科技项目2023DQ0707,枯竭油气藏大规模储氢基础理论与关键技术战略咨询研究,2023.6-2024.6400万元

9)   国际合作项目DECOVALEX-2023TASK G: Safety Implications of Fluid Flow, Shear, Thermal and Reaction Processes within Crystalline Rock Fracture NETworks (SAFENET),中方任务负责人

10) 深地科学与工程教育部重点实验室(四川大学)开放基金项目DESE202002,化学腐蚀对花岗岩水力裂缝扩展规律的影响研究,2020.01-2021.12,负责人

11) 水力学与山区河流开发保护国家重点实验室(四川大学)开放基金项目SKHL1917,花岗岩质干热岩酸化腐蚀后水力激发对裂缝系统扩展影响,2020.01-2021.12,负责人

12) 四川省科技计划项目2022YFSY0007,深部咸水层CO2地质封存与防灾研究,2022.01-2023.1280万元

13) 加拿大自然科学与工程研究基金项目RDCPJ 451432-13, 加拿大魁北克省深部地热能开发潜力数值模拟评估(Estimation du potential g othermique profound au Qu bec par modelisation numerique)2015.01-2017.06, 70万加元,项目执行负责人

14) 国际科技合作专项项目, 2012DFA60760,咸水层中CO2地质储存和资源化利用合作研究,2012.07-2015.06364万元,德方执行负责人

15) 岩土力学与工程国家重点实验室开放基金项目,盐下超深大变形储层地应力场数值模拟与各向异性机理,2022.01-2023.12

16) 岩土力学与工程国家重点实验室开放基金项目,孔隙特征对压实黏土吸附特性的影响机理研究,2020.01-2021.12

代表论著Representative Treatises

[1]  Liu H.J., Yang C.H., Liu J.J., Hou Z.M., Xie Y.C., Shi X.L. An overview of underground energy storage in porous media and development in China. Journal of Gas Science and Engineering, 2023, 205079.

[2]  Liu H.J., Shi Y.K., Fang Z.M., Liu J.F.*, Zhang L.W., Tong R.C. Seepage characteristics of thermally and chemically treated Mesozoic granite from geothermal region of Liaodong Peninsula. Environmental Earth Sciences, 2021,80,599.

[3]  Liu H.J., Ban S.N., Bedard K., Giroux B. Characteristics of Precambrian basement intruded by Cretaceous geological intrusions in Monteregian Igneous Province and their impacts on regional thermal structure. Advances in Geo-Energy Research, 2022, 6(3):206-220.

[4]  Liu H.J., Wang H.W., Lei H.W., Zhang L.W., Bai M.X., Zhou L., 2020. Numerical modeling of thermal breakthrough induced by geothermal production in fractured granites, Journal of Rock Mechanics and Geotechnical Engineering, 12(4):900-916(top 期刊).

[5]  Liu H.J., Li Q., Gou Y., Zhang L.W., Feng W.T., Liao J.X., Zhu Z.W., Wang H.W., Zhou L., 2020. Numerical investigation on cooling effect in geothermal reservoirs induced by injection of CO2 and cooled geothermal water. Oil & Gas Science and Technology-Rev. IFP Energies nouvelles 75(4):15, https://doi.org/10.2516/ogst/2020005.

[6]  Liu H.J., Nasr M., 2019. Construction of deep thermal models based on integrated thermal properties used for geothermal risk management, Mathematical Geosciences,51(3):295-317.

[7]  Liu H.J., Giroux B., Harris L., Quenette S., Mansour J., 2018. Numerical analysis of the role of radiogenic basement on temperature distribution in the St. Lawrence Lowlands, Quebec. Geothermal Energy 6: 30

[8]  Liu H.J., Were P., 2018. Geostatistical analysis on the spatial variation of radiogenic elements in the crystalline basement of Grenville Province in the southwestern Quebec, Environmental Earth Sciences, 77: 731

[9]  Liu H.J., Were P., Li Q., Gou Y., Hou Z.M., 2017. Worldwide status of CCUS technologies and their development and challenges in China. Geofluids, https://doi.org/10.1155/2017/6126505

[10]     Liu H.J., Hou Z.M., Were P., Gou Y., Sun X.L., 2016. Numerical investigation of the  formation displacement and caprock integrity in the Ordos Basin (China) during CO2 injection operation. Journal of Petroleum Science and Engineering(JPSE)147:168-180 (top期刊)

[11]     Liu H.J., Hou Z.M., Were P., Sun X.L., Gou Y., 2015. Numerical studies on CO2 injection-brine extraction process in a low-medium temperature reservoir system. Environmental Earth Science 73:6839-6854.

[12]     Liu H.J., Hou Z.M., Were P., Gou Y., Sun X.L., 2014. Simulation of CO2 plume movement in multilayered saline formations through multilayer injection technology in the Ordos Basin, China. Environmental Earth Science 71:4447- 4462.

[13]     刘贺娟,童荣琛,侯正猛*,窦斌,冒海军,黄广谭. 地下流体注采诱发地震综述及对深部高温岩体地热开发的影响. 工程科学与技术,2022, 54(1):1-14.

[14]     Wang H.W., Liu H.J., Chen D.F., Wu H.D., Jin X.P. Thermal response of the fractured hot dry rocks with thermal-hydro-mechanical coupling effects. Geothermics, 2022, 104:102464.

[15]     Mollaali M., Kolditz O., Hu M.S., Park C-H., Park J-W., McDermott C., Chittenden N., Bond A., Yoon J.S., Zhou J., Pan P.Z., Liu H.J., Hou W.B., Lei H.W., Zhang L.W., Nagel T., Barsch M., Wang W.Q., Nguyen S., Kwon S., Lee C., Yoshioka K*. Comparative verification of hydro-mechanical fracture behavior: Task G of international research project DECOVALEX-2023. International Journal of Rock Mechanics and Mining Sciences, 2023, 170, 105530(top 期刊).

[16]     Xie Y.C., Hou Z.M., Liu H.J., Li C.B. Anisotropic time-dependent behavior and evaluation of the applicability of empirical creep models for shale under direct shear. Journal of Rock Mechanics and Geotechnical Engineering, 2023. https://doi.org/10.1016/j.jrmge.2023.05.001(top 期刊).

[17]     Su X.P., Liu J.L., Liu H.J.*, Zhou L., Li H.L., Chen J.C. Comparison of shear and tensile fracture permeability in granite under loading-unloading stress conditions. Journal of Porous Media, 2021, 24(12):93-114.

[18]     Gou Y., Hou Z.M., Li M.T., Feng W.T., Liu H.J.*, 2016. Coupled thermo-hydro-mechanical simulation of CO2 enhanced gas  recovery with an extended equation of state module for TOUGH2MP-FLAC3D, Journal of RockMechanics and Geotechnical Engineering, 8(6):904-920(top 期刊).

[19]     Qiu X.S., Liu H.J.*, Liu M.C., Yang C.H., Mao H.J., Wang D.C., Ying Q.Q., Ban S.N. Pore structure evolution in sandstone of underground gas storage during cyclic injection and production based on nuclear magnetic resonance technology. Energies, 2023, 16, 2096.

[20]     Tong R.C., Liu H.J.*, Song Y.J., Xie L.H., Ban S.N. Permeability and mechanical response of granite after thermal and CO2 dissolved solution stimulation. Energies, 2022, 15, 8280.

[21]     Tong R.C., Liu H.J.*, Liu J.F., Shi Y.K., Xie L.H., Ban S.N. Meso-mechanical characteristics of granite with natural cracks after mud-acid corrosion. Energies, 2022,15, 721

[22]     Cao C., Liu H.J.*, Hou Z.M., Mehmood F., Liao J.X., Feng X.T., 2020. A review of CO2 storage in view of safety and cost-effectiveness. Energies, 13, 600.

[23]     Ding G.S., Liu H.J., Xia D.B., Wang D.C., Huang F.M., Guo H.T., Xie L.H., Guo Y.T., Wu M.Y., Mao H.J. Experimental study of the shear characteristics of fault filled with different types of gouge in underground gas storage. Energies, 2023, 16(7): 3119.

[24]     Wei X.X., Shi X.L., Li Y.P., Li P., Ban S.N., Zhao K., Ma H.L., Liu H.J., Yang C.H. A comprehensive feasibility evaluation of salt cavern oil energy storage system in China. Applied Energy, 2023, 351:121807 (top 期刊).

[25]     Zhao G.K., Guo Y.T., Yang C.H., Wang L., Guo W.H., Yang H.Z., Wu X.L., Liu H.J. Anisotropic mechanical behavior of ultra-deep shale under high in-situ stress, a case study in the Luzhou block of the southern Sichuan Basin, China. International Journal of Rock Mechanics and Mining Sciences, 2023, 170, 105536 (top 期刊).

[26]     Xue Q., Zhang L.W., Mei K.Y., Wang L., Wang Y., Li X.C., Cheng X.W., Liu H.J. Evolution of structural and mechanical properties of concrete exposed to high concentration CO2. Construction and Building Materials, 2022, 343:128077 (top 期刊).

[27]     Gou Y., Hou Z.M., Liu H.J., Zhou L., Were P., 2014. Numerical simulation of carbon dioxide injection for enhanced gas recovery (CO2-EGR) in Altmark natural gas field. Acta Geotechnica, 9:49-58 (top 期刊).

[28]     Shu S., Lu Y.Y., Wu X., Liu H.J. Pollution characteristics and vertical cutoff wall optimization at an industrial contaminated site in China. Ecotoxicology and Environmental Safety, 2022, 235:113435(top 期刊).

 

 

更多论文信息查看https://www.researchgate.net/profile/Hejuan-Liu

获奖及荣誉Awards and Honors

2022年入选湖北省三八红旗手

2020年入选湖北省女性科技创新人才

2018年入选中科院青年人才

版权所有:中国科学院武汉岩土力学研究所 Copyright.2020
地址:湖北省武汉市武昌区水果湖街小洪山2号
鄂ICP备05001981号-1       鄂公网安备 42010602003514