中文

Journal Publications

[1]Peng Yannan, Zhou Naijun, Liu Jinghang, Su Wen*, Lin Xinxing.Machine learning prediction of ORC performance based on properties of working fluid.Applied Thermal Engineering, 2021
[2]Yu Aofang, Su Wen*, Lin Xinxing, Zhou Naijun.Recent trends of supercritical CO2 Brayton cycle: bibliometric analysis and research review[J].Nuclear Engineering and Technology, 2021, 53: 699-714.
[3]Yu Aofang, Su Wen*, Zhao Li, Lin Xinxing, Zhou Naijun.New knowledge on the performance of supercritical Brayton cycle with CO2-based mixtures[J].Energies, 2020, 13: 1741.
[4]Su Wen*, Zhou Siman, Zhao Li, Zhou Naijun.Vapor-liquid equilibrium prediction of refrigerant mixtures with Peng–Robinson equation of state and binary interaction parameters calculated through group contribution model[J].International Journal of Thermophysics, 2020, 41: 1-24.
[5]Yu Aofang, Su Wen*, Lin Xinxing, Zhou Naijun, Zhao Li.Thermodynamic analysis on the combination of supercritical carbon dioxide power cycle and transcritical carbon dioxide refrigeration cycle for the waste heat recovery of shipboard[J].Energy Conversion and Management, 2020, 221: 113214.
[6]Peng Yannan, Su Wen*, Zhou Naijun, Zhao Li.How to evaluate the performance of sub-critical Organic Rankine Cycle from key properties of working fluids by group contribution methods?[J].Energy Conversion and Management, 2020, 221: 113204.
[7]Zhang Ruiyuan, Su Wen*, Lin Xinxing, Zhou Naijun, Zhao Li.Thermodynamic analysis and parametric optimization of a novel S-CO2 power cycle for the waste heat recovery of internal combustion engines[J].Energy, 2020, 209: 118484.
[8]明勇, 彭艳楠, 苏文*, 魏国龙, 王强, 周乃君, 赵力.闭式热源下混合工质与纯工质的ORC性能比较[J].化工学报, 2019, 71 (04) : 1570-1579.
[9]Su Wen*, Yu Aofang, Yang Bin, Zhao Li.Vapor-liquid separation of mixtures R134a/R600a at horizontal branch T-junctions[J].International Journal of Refrigeration, 2019, 114: 71-78.
[10]Su, Wen, Zhao, Li, Hwang, Yunho, shao, Yawei, Deng, Shuai, Nie, Xianhua, Zhang, Yue.Error analysis of ORC performance calculation based on the Helmholtz equation with different binary interaction parameters of mixture[J].Energy, 2019, 166: 414-425.
[11]邵亚伟, 赵力, 邓帅, 苏文, 卢培, 赵东鹏.制冷工质流动沸腾数值模拟中源项模型的研究进展[J].化工进展, 2018, 37 (8) : 6306468.
[12]Su Wen, Zhao Li, Hwang Yunho, Zheng Nan, Deng Shuai.Experimental study on the constituent separation performance of binary zeotropic mixtures in horizontal branch T-junctions[J].International Journal of Heat and Mass Transfer, 2018, 127: 76-87.
[13]Su, Wen, Zhao, Li, Yu, Zhixin, Xu, Weicong, Deng, Shuai.A limiting efficiency of subcritical Organic Rankine cycle under the constraint of working fluids[J].Energy, 2018, 143: 458-466.
[14]Su Wen, Zhao Li, Hwang Yunho, Deng Shuai, Zhao Dongpeng.Thermodynamic performance comparison of Organic Rankine Cycle between zeotropic mixtures and pure fluids under open heat source[J].Energy Conversion and Management, 2018, 165: 720-737.
[15]Xu Weicong, Zhao Li, Deng Shuai, Su Wen, Zhang Yin.How to approach Carnot cycle via zeotropic working fluid: Research methodology and case study[J].Energy, 2018, 144: 576-586.
[16]苏文, 赵力, 邓帅.基于工质物性的热力循环性能探索[J].科学通报, 2018 (2) : 232-240.
[17]Su Wen, Zhao Li, Hwang Yunho, Deng Shuai, Zheng Nan, Lu Pei.Experimental study on phase separation of refrigerant at horizontal T-junction[J].International Journal of Multiphase Flow, 2018, 105: 217-233.
[18]Su Wen, Zhao Li, Deng Shuai.New knowledge on the temperature-entropy saturation boundary slope of working fluids[J].Energy, 2017, 119: 211-217.
[19]Su Wen, Zhao Li, Deng Shuai.Group contribution methods in thermodynamic cycles: Physical properties estimation of pure working fluids[J].Renewable and Sustainable Energy Reviews, 2017, 79: 984-1001.
[20]Su Wen, Zhao Li, Deng Shuai.Recent advances in modeling the vapor-liquid equilibrium of mixed working fluids[J].Fluid Phase Equilibria, 2017, 432: 28-44.

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