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个人信息Personal Information
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908
联系方式:0411-84708617
电子邮箱:lanlan@dlut.edu.cn
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- [81]蒋兰兰, 王思佳, 李星泊, 刘婧, 刘瑜, 薛自求.The role of flow rate on flow patterns and saturation in high permeability porous media[J],International jounal of greenhouse gas control,2022,78:364-374
- [82]蒋兰兰, Wang, Sijia, Li, Xingbo, Liu, Jing, 刘瑜, Xue, Ziqiu.The role of flow rates on flow patterns and saturation in high-permeability porous media[J],International Journal of Greenhouse Gas Control,2022,78:364-374
- [83]Li, Xingbo, 宋永臣, Wu, Bohao, 刘瑜, 蒋兰兰.Determination of Swelling Effect in CO2-Brine Systems Using Microfocus X-ray CT[A],PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON APPLIED ENERGY,2017,142:3344-3349
- [84]Liu, Shezhan, 张毅, 赵佳飞, 蒋兰兰, 宋永臣.Dispersion characteristics of CO2 enhanced gas recovery over a wide range of temperature and pr...[J],Journal of Natural Gas Science and Engineering,2020,73
- [85]刘社展, 张毅, 赵佳飞, 蒋兰兰, 宋永臣.Dispersion characteristics of CO2 enhanced gas recovery over a wide range of temperature and pres...[J],Journal of Natural Gas Science and Engineering,2020,73:103056-
- [86]Li, Xingbo, 刘瑜, 蒋兰兰, 宋永臣.Diffusion Properties for CO2-Brine System under Sequestration Related Pressures with Considerat...[J],INDUSTRIAL ENGINEERING CHEMISTRY RESEARCH,2018,57(45):15556-15564
- [87]Mutailipu, Meiheriayi, 蒋兰兰, Fu, Jin, wangzhe, Yu, Tianbo, Lu, Zilong, 刘瑜.Effects of Na+, K+, Ca2+, and Mg2+ cations on CO2-brine interfacial tension under offshore stor...[J],Greenhouse Gases Science and Technology,2018,8(4):762-780
- [88]Wang, Sijia, 刘瑜, 赵越超, 张毅, 蒋兰兰, Yu, Bin, Yin, Yong, 宋永臣.Enhanced Mass Transfer by Density-Driven Convection during CO2 Geological Storage[J],INDUSTRIAL ENGINEERING CHEMISTRY RESEARCH,2020,59(19):9300-9309
- [89]Teng, Ying, 刘瑜, Lu, Guohuan, 蒋兰兰, 王大勇, 宋永臣.Experimental evaluation of injection pressure and flow rate effects on geological CO2 sequestra...[A],13th International Conference on Greenhouse Gas Control Technologies (GHGT),2017,114:4986-4993
- [90]Teng, Ying, Lu, Guohuan, Fan, Yinting, 刘瑜, 蒋兰兰, 王大勇, 宋永臣.Experimental study of density-driven convection in porous media by using MRI[A],8th International Conference on Applied Energy (ICAE),2017,105:4210-4215
- [91]刘瑜, 宋永臣, 赵佳飞, 蒋兰兰, 李清平, 喻西崇.多孔介质断面可视化与孔隙度测量的MRI方法[J],测试技术学报,2022,3:195-199
- [92]蒋兰兰, Xu, Nan, Liu, Qingbin, Cheng, ZuCheng, Yu, Zhao, Jiafei.Review of Morphology Studies on Gas Hydrate Formation for Hydrate-Based Technology[J],CRYSTAL GROWTH & DESIGN,2021,20(12):8148-8161
- [93]Lv, Junchen, Zhao, Jiafei, 蒋兰兰, Liu, Yu, Mu, Hailin.A review of micro computed tomography studies on the gas hydrate pore habits and seepage proper...[J],JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING,2021,83
- [94]Liu, Yu, Liao, Xiangrui, Shi, Changrui, Ling, Zheng, 蒋兰兰.Promoting and Inhibitory Effects of Hydrophilic/Hydrophobic Modified Aluminum Oxide Nanoparticl...[J],ENERGIES,2021,13(20)
- [95]蒋兰兰, Wang, Sijia, Liu, Donglei, Zhang, Weixin, Lu, Guohuan, Yu, Zhao, Jiafei.Change in Convection Mixing Properties with Salinity and Temperature: CO(2)Storage Application[J],POLYMERS,2021,12(9)
- [96]Yang, Mingjun, Ma, Zhanquan, Gao, Yi, 蒋兰兰.Dissociation characteristics of methane hydrate using depressurization combined with thermal st...[J],CHINESE JOURNAL OF CHEMICAL ENGINEERING,2021,27(9,SI):2089-2098
- [97]Zheng, Jia-nan, 蒋兰兰, Wang, Pengfei, Zhou, Hang, Yang, Mingjun.MRI observation of CO2-C3H8 hydrate-induced water migration in glass sand[J],CHEMICAL ENGINEERING SCIENCE,2021,207:1096-1106
- [98]Mutailipu, Meiheriayi, 蒋兰兰, Liu, Xiaojie, 刘瑜, Zhao, Jiafei.CO2 and alkane minimum miscible pressure estimation by the extrapolation of interfacial tension[J],FLUID PHASE EQUILIBRIA,2021,494:103-114
- [99]蒋兰兰, Xue, Ziqiu, Park, Hyuck.Enhancement of CO2 dissolution and sweep efficiency in saline aquifer by micro bubble CO2 injec...[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2021,138:1211-1221
- [100]滕莹, 刘瑜, 蒋兰兰, 陆国欢, 王大勇, 宋永臣.CO2 capillary trapping behaviour in glass sand packed heterogeneous porous media[J],RSC ADVANCES,2021,6(103):101452-101461