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个人简介

教育经历 2011.9 2015.1 天津大学 制冷及低温工程 博士 2009.9 2015.1 天津大学 制冷及低温工程 硕士 2005.9 2009.7 大连理工大学 热能与动力工程 学士 工作经历 2015.1 至今 大连理工大学 讲师

研究领域

2. 中低品位热能高效转换利用技术(包括逆电渗析法热-电转换技术;逆电渗析法热制氢技术;吸收式制冷/热泵新技术等) 1. 制冷剂替代科学(包括工质热物性、燃爆及惰化机理、溶解性以及循环性能等)

近期论文

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吴曦.Solubility, conductivity and electric convertibility of working solutions consist of LiCl+H2O+eth...[A],HUB2017 Energy Conference, V?ster?s, Sweden.,2022 吴曦.Performance of a reverse electrodialysis cell working with potassium acetate−methanol−water sol...[J],Energy,2022,232 吴曦.Solubility of potassium acetate in solvents consist of 2,2,2-trifluoroethanol and water[A],6th International Conference on Cryogenics & Refrigeration (ICCR2018),2022,461-462 吴曦.Solubility of Potassium Acetate in Water, 2,2,2-Trifluoroethanol, Ethanol and Their Binary Mixt...[J],Chemical Research in Chinese Universities,2022,36(5):921-926 吴曦.State of the art on the flammability of hydrofluoroolefin (HFO) refrigerants[J],INTERNATIONAL JOURNAL OF REFRIGERATION REVUE INTERNATIONALE DU FROID,2022,108(12):209-223 Dong, Fujiang.Numerical simulation of flow and mass transfer in profiled membrane channels for reverse electr...[J],CHEMICAL ENGINEERING RESEARCH DESIGN,2022,157:77-91 Jiang, Mengnan.Numerical simulation and experiment for R124-DMAC bubble absorption process in a vertical tubul...[J],INTERNATIONAL JOURNAL OF THERMAL SCIENCES,2022,138:124-133 金东旭.Numerical simulation of salinity gradient power generation using reverse electrodialysis[J],DESALINATION,2022,512 Hu, Junyong.Multi-stage reverse electrodialysis: Strategies to harvest salinity gradient energy[J],ENERGY CONVERSION AND MANAGEMENT,2022,183:803-815 徐士鸣.Measurement and Correlation of Vapor-Liquid Equilibrium for R124 (1-Chloro-1,2,2,2-Tetrafluoroe...[J],JOURNAL OF CHEMICAL AND ENGINEERING DATA,2022,62(10):3414-3422 Dong, Fujiang.Cross-linked poly(vinyl alcohol)/sulfosuccinic acid (PVA/SSA) as cation exchange membranes for re...[J],SEPARATION AND PURIFICATION TECHNOLOGY,2022,267 吴曦.Development of bubble absorption refrigeration technology: A review[J],RENEWABLE SUSTAINABLE ENERGY REVIEWS,2022,82:3468-3482 徐士鸣.Analysis of a multi-stage air gap diffusion distillation system powered by low-grade sensible hea...[J],Applied Thermal Engineering,2022,200 徐士鸣.Air-gap diffusion distillation: Theory and experiment[J],DESALINATION,2022,467:64-78 Zhang, Youwen.A serial system of multi-stage reverse electrodialysis stacks for hydrogen production[J],ENERGY CONVERSION AND MANAGEMENT,2022,251 Jiang, Mengnan.Visual experimental research on the effect of nozzle orifice structure on R124-DMAC absorption ...[J],INTERNATIONAL JOURNAL OF REFRIGERATION REVUE INTERNATIONALE DU FROID,2022,68:107-117 Hu, Junyong.Theoretical simulation and evaluation for the performance of the hybrid multi-effect distillati...[J],DESALINATION,2022,443:172-183 Jiang, Mengnan.Heat and mass transfer characteristics of R124-DMAC bubble absorption in a vertical tube absorb...[J],EXPERIMENTAL THERMAL AND FLUID SCIENCE,2022,81:466-474 Xu, Lin.Heat and mass transfer evaluation of air-gap diffusion distillation by epsilon-NTU method[J],DESALINATION,2022,478 徐士鸣.Influence of output current on decolorization efficiency of azo dye wastewater by a series system...[J],ENERGY CONVERSION AND MANAGEMENT,2022,228 吴曦.Electrical Conductivity of Lithium Chloride, Lithium Bromide, and Lithium Iodide Electrolytes i...[J],JOURNAL OF CHEMICAL AND ENGINEERING DATA,2022,64(10):4319-4329 徐士鸣.Experimental investigation on dye wastewater treatment with reverse electrodialysis reactor pow...[J],DESALINATION,2022,495 王巍.Experimental investigation on flow patterns and absorption height in a vertical bubble absorber...[J],APPLIED THERMAL ENGINEERING,2022,168 Hu, Junyong.Exergy analysis for the multi-effect distillation - reverse electrodialysis heat engine[J],DESALINATION,2022,467:158-169 Jiang, Mengnan.Experimental investigation for heat and mass transfer characteristics of R124-DMAC bubble absor...[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2022,108:2198-2210 Wu, Debing.Effect of current-induced ion transfer on the electrical resistance of reverse electrodialysis st...[J],ELECTROCHIMICA ACTA,2022,385 吴曦.Electric conductivity and electric convertibility of potassium acetate in water, ethanol, 2,2,2...[J],Chinese Journal of Chemical Engineering,2022,26(12):2581-2591 李星.汽车发动机废热驱动吸收式制冷循环动态特性研究[J],制冷与空调,2022,6:69-74 徐士鸣.氯化锂溶液为工质的溶液浓差发电实验研究[J],大连理工大学学报,2022,4:337-344 王偲雪.溶液浓差能驱动的REDR阴/阳极独立环路降解废水中的苯酚[J],Chinese Journal of Environmental Engineering,2022,15(3):886-897 徐士鸣.溶液浓差能驱动的逆电渗析反应器制氢实验研究[J],化工学报,2022,71(5):2283-2291 徐士鸣.溶液浓差能驱动的逆电渗析有机废水氧化降解机理研究[J],环境科学学报,2022,38(12):4642-4651 吴曦.振动参数对竖直管内R124/DMAC工质鼓泡吸收特性的影响[J],Tianjin Daxue Xuebao (Ziran Kexue yu Gongcheng Jishu Ban)/Journal of Tianjin University Science and Technology,2022,51(10):1050-1055 吴曦.适用于复叠式中高温热泵的混合制冷剂分析[J],制冷学报,2018,39(5):53-58 徐士鸣.逆电渗析反应器阴、阳极联合降解酸性橙Ⅱ实验研究[J],环境科学学报,2019,39(7):2163-2171 吴曦.逆电渗析法热-电转换系统循环工质匹配准则[J],化工学报,2016,z2:326-332 何其琛.顺流串联逆电渗析电堆数对能量转换效率的影响研究[J],膜科学与技术,2018,38(5):23-30,46 徐士鸣.顺、逆流串联电路逆电渗析电堆发电系统能量转换效率研究[J],大连理工大学学报,2019,59(1):20-27 秦苗苗.高校创新创业孵化研究——基于瑞典麦拉达伦大学经验[J],黑龙江畜牧兽医,2019,14:157-159 吴曦.NaAc在甲醇、乙二醇及三氟乙醇中的电导率实验[J],热科学与技术,2019,18(4):340-344 徐士鸣.电流与浓差对逆电渗析电堆内质量传递的影响[J],化工学报,2018,69(10):4206-4215 吴德兵.不同单价电解质水溶液对逆电渗析电堆工作特性的影响[J],化工进展,2019,38(6):2738-2745 徐士鸣.从吸收制冷到逆向电渗析发电——溶液浓差能应用新技术[J],制冷技术,2017,2:8-13 吴曦.LiBr-甲醇-水三元体系的电导特性研究[A],高等学校工程热物理第二十四届全国学术会议(唐山),2018,24届 吴曦.LiX(X=Cl, Br, I)在乙醇、异丙醇及三氟乙醇中的电导率实验研究[J],Journal of Chemical Engineering of Chinese Universities,2019,33(3):533-539 徐士鸣.KI/LiCl/LiBr-水-乙醇三元体系电导率特性研究[J],大连理工大学学报,2017,1:23-28 徐士鸣.Experimental research on heat transfer performance of R124-DMAC bubble absorption in a vertical t...[A],5th IIR Conference on thermophysical properties and transfer processes of refrigerants (TPTPR). Seoul, Korea,2017 吴曦.KAc-乙醇-水三元体系的电导特性研究[A],2018年工程热物理学会工程热力学与能源利用分会(大连),2018 Hu, Junyong.Experimental investigation on the performance of series control multi-stage reverse electrodial...[J],ENERGY CONVERSION AND MANAGEMENT,2020,204 吴曦.LiX(X=Cl,Br,I)在乙醇、异丙醇及三氟乙醇中的电导率实验研究[J],高校化学工程学报,2019,33(3):533-539 吴曦.Experimental research on electric conductivity of LiAC, NaAc and KaC in methanol[A],9th Asian Conference on Refrigeration and Air-Conditioning,2018,ACRA2018-B333 王巍.Experimental investigation on heat and mass transfer in a vertical glass bubble absorber with R...[J],INTERNATIONAL JOURNAL OF REFRIGERATION REVUE INTERNATIONALE DU FROID,2020,112:303-313 Xu Shiming.Experimental investigation on dye wastewater treatment with reverse electrodialysis reactor pow...[J],DESALINATION,2020,495 吴曦.Solubility of Potassium Acetate in Water, 2,2,2-Trifluoroethanol, Ethanol and Their Binary Mixt...[J],CHEMICAL RESEARCH IN CHINESE UNIVERSITIES,2020,36(5):921-926 Wang, Wei,Xu, Shiming,Wu, Xi,Jin, Dongxu,Jiang, Mengnan.Experimental investigation on flow patterns and absorption height in a vertical bubble absorber...[J],APPLIED THERMAL ENGINEERING,2020,168 Wang, Wei,Xu, Shiming,Wu, Xi,Jiang, Mengnan.Experimental investigation on heat and mass transfer in a vertical glass bubble absorber with R...[J],INTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE DU FROID,2020,112:303-313 Hu, Junyong,Wu, Debing,Xu, Lin,Zhang, Xuan,Yang, Shuaishuai,Xi, Ruyu,Xu, Shiming,Wu, Xi,Wang, Sixue.Experimental investigation on the performance of series control multi-stage reverse electrodial...[J],ENERGY CONVERSION AND MANAGEMENT,2020,204 Wu, Xi,Dang, Chaobin,Xu, Shiming,Hihara, Eiji.State of the art on the flammability of hydrofluoroolefin (HFO) refrigerants[J],INTERNATIONAL JOURNAL OF REFRIGERATION-REVUE INTERNATIONALE DU FROID,2019,108(12):209-223 吴德兵,徐士鸣,吴曦,胡军勇,冷强,徐志杰,金东旭,王平.不同单价电解质水溶液对逆电渗析电堆工作特性的影响[J],化工进展,2019,38(6):2738-2745 秦苗苗,吴曦.高校创新创业孵化研究——基于瑞典麦拉达伦大学经验[J],黑龙江畜牧兽医,2019,14:157-159 吴曦,张鑫杰,徐士鸣,燕子腾,龚英.NaAc在甲醇、乙二醇及三氟乙醇中的电导率实验[J],热科学与技术,2019,18(4):340-344 Xu, Shiming,Xu, Lin,Wu, Xi,Wang, Ping,Jin, Dongxu,Hu, Junyong,Zhang, Shuping,Leng, Qiang,Wu, Debing.Air-gap diffusion distillation: Theory and experiment[J],DESALINATION,2019,467:64-78 徐士鸣,张凯,金东旭,王平,吴德兵,胡军勇,何其琛,吴曦.顺、逆流串联电路逆电渗析电堆发电系统能量转换效率研究[J],大连理工大学学报,2019,59(1):20-27 Wu, Xi,Xu, Shiming,Wu, Debing,Liu, Huan.Electric conductivity and electric convertibility of potassium acetate in water, ethanol, 2,2,2...[J],CHINESE JOURNAL OF CHEMICAL ENGINEERING,2018,26(12):2581-2591 何其琛,徐士鸣,吴曦,吴德兵,胡军勇,张凯,金东旭,王平.顺流串联逆电渗析电堆数对能量转换效率的影响研究[J],膜科学与技术,2018,38(5):23-30,46 吴曦,刘嘉威,蒋孟男,徐士鸣,王伟.振动参数对竖直管内R124/DMAC工质鼓泡吸收特性的影响[J],天津大学学报,2018,51(10):1050-1055 Hu, Junyong,Xu, Shiming,Wu, Xi,Wu, Debing,Jin, Dongxu,Wang, Ping,Leng, Qiang.Theoretical simulation and evaluation for the performance of the hybrid multi-effect distillati...[J],DESALINATION,2018,443:172-183 徐士鸣,徐志杰,吴曦,冷强,金东旭,王平,胡军勇,吴德兵.溶液浓差能驱动的逆电渗析有机废水氧化降解机理研究[J],环境科学学报,2018,38(12):4642-4651 吴曦,徐士鸣,刘嘉威,代小军,赵文仲.适用于复叠式中高温热泵的混合制冷剂分析[J],制冷学报,2018,39(5):53-58 徐士鸣,张凯,吴曦,吴德兵,胡军勇,何其琛,金东旭,王平.电流与浓差对逆电渗析电堆内质量传递的影响[J],化工学报,2018,69(10):4206-4215 Wu, Xi,Xu, Shiming,Jiang, Mengnan.Development of bubble absorption refrigeration technology: A review[J],RENEWABLE & SUSTAINABLE ENERGY REVIEWS,2018,82:3468-3482 吴曦,徐士鸣,张红军,龚英.Solubility of potassium acetate in solvents consist of 2,2,2-trifluoroethanol and water[A],2018,461-462 吴曦,龚英,徐士鸣.KAc-乙醇-水三元体系的电导特性研究[A],2018 吴曦,燕子腾,徐士鸣,张鑫杰,龚英.LiBr-甲醇-水三元体系的电导特性研究[A],2018,24届 吴曦,燕子腾,徐士鸣,张鑫杰,龚英.Experimental research on electric conductivity of LiAC, NaAc and KaC in methanol[A],2018,ACRA2018-B333 Xu, Shiming,Wang, Wei,Wu, Xi,Hu, Jungyong,Jiang, Mengnan.Measurement and Correlation of Vapor-Liquid Equilibrium for R124 (1-Chloro-1,2,2,2-Tetrafluoroe...[J],JOURNAL OF CHEMICAL AND ENGINEERING DATA,2017,62(10):3414-3422 徐士鸣,吴德兵,吴曦,胡军勇,刘欢,张红军,陈顺权,陈静.氯化锂溶液为工质的溶液浓差发电实验研究[J],大连理工大学学报,2017,57(4):337-344 Jiang, Mengnan,Xu, Shiming,Wu, Xi.Experimental investigation for heat and mass transfer characteristics of R124-DMAC bubble absor...[J],INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER,2017,108:2198-2210 徐士鸣,张红军,何其琛,张凯,陈顺权,陈静,吴曦,吴德兵,刘欢.从吸收制冷到逆向电渗析发电——溶液浓差能应用新技术[J],制冷技术,2017,37(2):8-13 Jiang, Mengnan,Xu, Shiming,Wu, Xi,Wang, Wei.Heat and mass transfer characteristics of R124-DMAC bubble absorption in a vertical tube absorb...[J],EXPERIMENTAL THERMAL AND FLUID SCIENCE,2017,81:466-474

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