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    蒋兰兰

    • 教授     博士生导师   硕士生导师
    • 主要任职:Professor
    • 性别:女
    • 毕业院校:大连理工大学
    • 学位:博士
    • 所在单位:能源与动力学院
    • 学科:能源与环境工程
    • 办公地点:能源与动力学院
    • 联系方式:0411-84708617
    • 电子邮箱:lanlan@dlut.edu.cn

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    个人简介

    蒋兰兰,国家级青年人才2014年-2015年访问东京工业大学,2015年-2018年任职日本地球环境产业技术研究所。2018年6月特评副教授,2022年12月破格教授。长期从事CO2减排及水合物利用相关研究,近五年累计发表SCI收录论文60余篇,其中JCR1区论文26篇,封面论文4篇,影响因子大于108篇,ESI高被引2篇Google引用2473次,H指数26。授权国家发明专利36项,PCT5项。获得教育部自然科学奖一等奖(2项)中国发明协会发明创新奖一等奖、海洋工程技术奖唯一特等奖、日内瓦专利金奖。担任2个国际期刊编委,Applied Energy International journal of greenhouse gas controlJournal of CO2 Utilization多个国际SCI期刊审稿人。作为负责人承担国家自然科学基金委面上、青年项目、辽宁省优青等项目。

     

    具体研究方向

    温室气体减排:

     CO2地质封存机理

    多孔介质内多相渗流传质研究

    水合物应用技术:

    水合物法CO2捕获研究

    水合物法天然气储运研究

     新型蓄冷材料与装备开发

    相变材料组装与性能表征

    蓄冷设备开发


          每年招收数名硕士生/博士生,欢迎感兴趣的同学邮件联系:lanlan@dlut.edu.cn


     主要一作和通讯作者论文:

    [1]    Post-combustion CO2 capture and separation in flue gas based on hydrate technology A reviewRenewable and Sustainable Energy ReviewsIn press.Q1,IF:14.982

    [2]    Microscopic insights into gas hydrate formation and dissociation in sediments using microfluidicsChemical Engineering Journalhttps://doi.org/10.1016/j.cej.2021.1306332021, Q1, IF13.273

    [3]    Effect of nanoparticles as a substitute for traditional kinetic additives on the efficient CO2 capture by hydrate methodChemical Engineering Journal2021, Q1, IF13.273

    [4]    Dependence of hydrate-based CO2 capture process on hydrate reservoir environment with strengthen capture efficiency methodsChemical Engineering Journal2021,Q1,IF13.273

    [5]    Asymmetric competitive adsorption of CO2/CH4 binary mixture in shale matrix with heterogeneous surfacesChemical Engineering Journal2021, Q1, IF13.273

    [6]    Kinetics and spatial distribution of tetrahydrofuran/methane hydrate formation in an unstirred reactor: Application in natural gas storage, Fuel2021, Q1,IF6.609

    [7] Quantitative analysis of methane hydrate formation in size-varied porous media for gas storage and transportation application Fuel2021, Q1, IF6.609

    [8]    Experimental study on the CO2-decane displacement front behavior in high permeability sand evaluated by magnetic resonance imaging.  Energy, 2021, Q1,  IF7.147

    [9] Quantitative study of mass transfer during density-driven convection mixing in deep saline aquifer: an experimental method. Journal of Hydrology, 2021, Q1, IF5.722

    [10] Unstable density driven convective dissolution in heterogeneous porous media with implication for deep saline aquifer. Water resources research, 2021, Q1, IF5.240

    [11] Enhanced mass transfer by density-driven convection during CO2 geological storage. Industrial & Engineering Chemistry Research, 2020, Q2, IF3.720

    [12] A review of morphology studies on gas hydrate formationCrystal Growth & Design2020,Q1,IF4.079

    [13] Morphology-Based Kinetic Study of the Formation of Carbon Dioxide Hydrates with PromotersEnergy& Fuels2020, Q2, IF3.605

    [14] Kinetic Analysis of Nano-SiO2 Promoting Methane Hydrate Formation in Porous MediumJournal of natural gas science and engineering2020, Q2, IF4.965

    [15] Enhancement of CO2 dissolution and sweep efficiency in saline aquifer by micro bubble CO2 injection. International Journal of Heat and Mass Transfer, 2019.04.1392019. Q1, IF5.584

    [16] The effect of density difference on the development of density-driven convection under large Rayleigh number. International Journal of Heat and Mass Transfer2019, Q1, IF5.584

    [17] Dynamic evolution of the CO2-brine interfacial area during brine imbibition in porous media. International Journal of Heat and Mass Transfer2019, Q1, IF5.584

    [18] The role of flow rate on flow patterns and saturation in high permeability porous media. International Journal of Greenhouse Gas Control2018, Q2, IF3.738

    [19] Numerical Studies on Gas Production from Methane Hydrate Deposits by Depressurization at 274 K. Applied Energy2018, Q1,IF9.746

    [20] Diffusion Properties for CO2-Brine System under Sequestration-Related Pressures with Consideration of the Swelling Effect and Interfacial Area. Industrial & EngineeringChemistry esearch2018, Q2,IF3.573 IF IF3.720

    [21]  Mass transfer coefficient measurement during brine flush in a CO2-filled packed bed by X-ray CT scanning. International Journal of Heat and Mass Transfer2017, Q1, IF5.584

     




    教育经历

    2011.9 -- 2014.9
    大连理工大学       能源与环境工程       博士

    2008.9 -- 2011.1
    大连理工大学       能源与环境工程       硕士

    2004.9 -- 2008.7
    大连理工大学       能源与环境工程       学士

    工作经历

    2018.6 -- 至今

    大连理工大学      副教授

    2015.6 -- 2018.6

    日本地球环境产业技术研究所      研究员

    社会兼职

  • 美国ACS会员
    日本JPGU会员
    1个国际期刊编委
    多个学科TOP期刊审稿人

  • 研究方向

  • CO2地质封存机理

  • 多孔介质内多相渗流传质研究

  • 水合物法CO2捕获研究

  • 水合物法天然气储运研究