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吴双应

职称:教授

邮箱:shuangyingwu@126.com

主要从事:​从事太阳能转换与利用,热工理论及其工程应用、能源高效转换利用与节能技术和能源动力工程热经济学等方面的科研和教学工作;主讲传热学和热工学等课程
  • 个人简介
  • 教育经历
  • 研究方向
  • 本科生及研究生培养
  • 科研项目
  • 代表性论文

吴双应,工学博士,教授,博(硕)士生导师。中国能源研究会热力学及其工程应用专业委员会委员;国家自然科学基金通讯评审专家;多个国内外专业权威杂志审稿人。2008年6月至2009年6月被国家留学基金委选拔公派至美国Florida International University机械与材料工程系从事访问研究工作一年。多年来一直从事太阳能转换与利用,热工理论及其工程应用、能源高效转换利用与节能技术和能源动力工程热经济学等方面的科研和教学工作;主讲传热学和热工学等课程;出版《热经济学理论及应用》(科学出版社,2020.6)专著一部;主编《传热学》(科学出版社,2012.5)和《传热分析与计算》(中国电力出版社,2013.10)教材两部;主持国家自然科学基金、科技部“973”计划项目、教育部留学回国人员科研启动基金、重庆市自然科学基金、重庆市技术创新和应用发展专项等科研项目;获重庆市科技进步三等奖1项;以第一发明人获授权发明专利4项,获授权实用新型专利6项;在国际国内杂志和学术会议上公开发表学术论文100余篇,其中以第一或第二作者(通讯作者)发表SCI收录论文80余篇。

(1)太阳能转换与利用中的工程热物理问题;

(2)能源高效转换利用与节能技术;

(3)热工理论及其工程应用;

(4)能源动力工程热经济学。



     (1)太阳能转换与利用中的工程热物理问题;

     (2)能源高效转换利用与节能技术;

     (3)热工理论及其工程应用;

     (4)能源动力工程热经济学。

       主要招收以上各方向的博士和硕士研究生(学术型和专业型)。


     国际杂志论文

[1]     Shuang-Ying Wu, Jiang-Guo Luo, Lan Xiao, Zhi-Li Chen. Effect of different errors on deformation and thermal stress of absorber tube in solar parabolic trough collector. International Journal of Mechanical Sciences, 2020, 188: 105969.

[2]     Shuang-Ying WuMan WangLan Xiao, Zhi-Li Chen. Flow and heat transfer characteristics in slip regime for an annulus of evacuated collector tube subjected to non-uniform solar flux boundary condition. International Journal of Thermal Sciences, 2020, 153: 106351.

[3]     Shuang-Ying Wu, Xue-Qin Yan, Lan Xiao. Numerical analysis on geometric and shape parameters of solar dual-catalytic Trombe wall performance. Solar Energy, 2020, 199: 460–473.

[4]     Lan Xiao, Song He, Shuang-Ying Wu, Zhi-Li Chen. Optical-thermal conversion characteristics of cylindrical receiver with built-in helically coiled tubes. Sustainable Energy Technologies and Assessments, 2020, 37: 100626.

[5]     Shuang-Ying Wu, Li Xu, Lan Xiao. Air purification and thermal performance of photocatalytic-Trombe wall based on multiple physical fields coupling. Renewable Energy, 2020,148: 338-348.

[6]     Lan Xiao, Xiao-Dong Cai, Shuang-Ying Wu. Experimental investigation on natural convective heat loss of cylindrical cavity with/without a quartz window. International Journal of Thermal Sciences, 2020, 150: 106220.

[7]     Shuang-Ying Wu, Li Xu, Lan Xiao. Performance study of a novel multi-functional Trombe wall with air purification, photovoltaic, heating and ventilation. Energy Conversion and Management, 2020, 203: 112229.

[8]     Lan Xiao, Run Shi, Shuang-Ying Wu, Zhi-Li Chen. Performance study on a photovoltaic thermal (PV/T) stepped solar still with a bottom channel. Desalination, 2019, 471: 114129.

[9]     Lan Xiao, Deng Zhang, Shuang-Ying Wu, Hui-Jia Yu. Condensation heat transfer characteristics of the alkali metal thermal to electric converter (AMTEC) porous wick condenser. Thermal Science, 2019, 23(3B): 1911-1922.

[10]  Lan Xiao, Ya-Di Fan, Shuang-Ying Wu, Zhi-Li Chen. Preliminary analysis on thermodynamic and thermo-eonomic performance of a solar CPC–KCS hybrid system. Environmental Progress & Sustainable Energy, 2019, 38(4): 1-12

[11]  Lan Xiao, Feng-Wei Guo, Shuang-Ying Wu, Zhi-Li Chen. A comprehensive simulation on optical and thermal performance of a cylindrical cavity receiver in a parabolic dish collector system. Renewable Energy, 2020, 145: 878-892.

[12]  Shuang-Ying Wu, Ting Wang, Lan Xiao, Zu-Guo Shen. Effect of cooling channel position on heat transfer characteristics and thermoelectric performance of air-cooled PV/T system. Solar Energy, 2019, 180: 489-500.

[13]  Shuang-Ying Wu, Yi-Chen ZhangLan Xiao. Conceptual design and performance analysis of concentrated solar‐driven TIC/AMTEC/TEG hybrid systemInternational Journal of Energy Research, 2018, 42(15): 4674-4686.

[14]  Shuang-Ying Wu, Gang Guo, Lan Xiao, Zhi-Li Chen. A new AMTEC/TAR hybrid system for power and cooling cogeneration. Energy Conversion and Management, 2019, 180: 206-217.

[15]  Shuang-Ying Wu, Peng Li, Ying-Ying Wu, Lan Xiao. Experimental investigation on heat dissipation of partitioned and non-partitioned rectangular enclosures under no-wind condition. Experimental Thermal and Fluid Science, 2019, 101: 101-114.

[16]  Ying-Ying Wu, Shuang-Ying Wu, Lan Xiao, Zhi-Li Chen. Stability analysis of heat transfer in shallow enclosure applied in glass covered PV-T system. Applied Thermal Engineering, 2019, 146: 61-73.

[17]  Ying-Ying Wu, Shuang-Ying Wu, Lan Xiao. Heat dissipation characteristics from photovoltaic cells within the partitioned or non-partitioned glazed cavity to the windy environment. Renewable Energy, 2018, 127: 642-652.

[18]  Shuang-Ying Wu, Yi-Chen Zhang, Lan Xiao, Zu-Guo Shen. Performance comparison investigation on solar photovoltaic-thermoelectric generation and solar photovoltaic-thermoelectric cooling hybrid systems under different conditions. International Journal of Sustainable Energy, 2018, 37(6): 533-548.

[19]  Shuang-Ying Wu, Chen Chen, Lan Xiao. Heat transfer characteristics and performance evaluation of water-cooled PV/T system with cooling channel above PV panel. Renewable Energy, 2018, 125: 936-946.

[20]  Shuang-Ying Wu, Ying-Ying Wu, Lan Xiao, Zhen Yang. Experimental study of natural convection heat transfer from a nonuniformly heated flat plate simulating PV panel. Journal of Mechanical Science and Technology, 2018, 32(1): 423-432.

[21]  Lan Xiao, Shuang-Ying Wu, Shi-Ling Yang. Parametric study on the thermoelectric conversion performance of a concentrated solar-driven thermionic-thermoelectric hybrid generator. International Journal of Energy Research, 2018, 42(2): 656-672.

[22]  Shuang-Ying Wu, Xiao-Feng Zheng, Lan Xiao. Phase change heat transfer characteristics of porous wick evaporator with bayonet tube and alkali metal as working fluid. International Journal of Thermal Sciences, 2018, 126: 152-161.

[23]  Shuang-Ying Wu, Yi-Chen Zhang, Han Yang, Lan Xiao. Performance evaluation and parametric analysis of AMTEC/TEG hybrid system. Energy Conversion and Management, 2017, 154: 118-126.

[24]  Lan Xiao, Shuang-Ying Wu, Yang Shang. Theoretical analysis of sodium vapor condensation on a plate imbedded in a porous medium under zero gravity condition. Heat Transfer Research, 2017, 48(15): 1359-1378.

[25]  Zu-Guo Shen, Shuang-Ying Wu, Lan Xiao, Zu-Xiang Chen. Proposal and assessment of a solar thermoelectric generation system characterized by Fresnel lens, cavity receiver and heat pipe. Energy, 2017, 141: 215-238.

[26]  Zu-Guo Shen, Shuang-Ying Wu, Lan Xiao. Assessment of the performance of annular thermoelectric couples under constant heat flux condition. Energy Conversion and Management, 2017, 150: 704-713.

[27]  Zu-Guo Shen, Shuang-Ying Wu, Lan Xiao, Yi Qiu, Ke Wang. Effect of aperture size on free convection and radiation heat transfer in isoflux upward-facing cylindrical cavities. Experimental Thermal and Fluid Science, 2017, 87: 1-14.

[28]  Lan Xiao, Hai-Yan Wu, Shuang-Ying Wu. Flow and heat transfer characteristics of alkali metal liquid in a pipe with inscribed regular polygon porous media. Journal of Mechanical Science and Technology, 2017, 31(4): 1987-1994.

[29]  Ying-Ying Wu, Shuang-Ying Wu, Lan Xiao. Numerical study on convection heat transfer from inclined PV panel under windy environment. Solar Energy, 2017, 149: 1-12.

[30]  Shuang-Ying Wu, Hang Zhang, Lan Xiao, Yi Qiu. Experimental investigation on convection heat transfer characteristics of flat plate under environmental wind condition. International Journal of Green Energy, 2017, 14(3): 317-329.

[31]  Lan XiaoShuang-Ying WuChun LiThe critical external heat source conditions for subcritical ORC system based on thermo-economics. Journal of Mechanical Science and Technology, 2016, 30(8): 3853-3860.

[32]  Zu-Guo Shen, Shuang-Ying Wu, Lan Xiao, Ke Wang. Effect of tilt angle on the stability of free convection heat transfer in an upward-facing cylindrical cavity: Numerical analysis. International Journal of Thermal Sciences, 2016, 107: 13-24.

[33]  Shuang-Ying Wu, Shu-Meng Zhou, Lan Xiao. The determination and matching analysis of pinch point temperature difference in evaporator and condenser of organic rankine cycle for mixed working fluid. International Journal of Green Energy, 2016, 13(5): 470-480.

[34]  Zu-Guo Shen, Shuang-Ying Wu, Lan Xiao. Numerical study of wind effects on combined convective heat loss from an upward-facing cylindrical cavity. Solar Energy, 2016, 132: 294-309.

[35]  Zu-Guo Shen, Shuang-Ying Wu, Lan Xiao, Gang Yin. Theoretical modeling of thermoelectric generator with particular emphasis on the effect of side surface heat transfer. Energy, 2016, 95: 367-379.

[36]  Shuang-Ying WuKe WangLan XiaoSi-Min Chen. Wind effect on combined convection and surface radiation heat losses of a fully open cylindrical cavity with insulation. Heat Transfer Engineering, 2016, 37(5): 456-467.

[37]  Shuang-Ying Wu, De-Lei Li, Lan Xiao, Zu-Guo Shen. Experimental study on the effect of wind on heat losses from a fully open cylindrical cavity with only bottom wall heated. International Journal of Green Energy, 2015, 12(12): 1244-1254.

[38]  Lan Xiao, Shuang-Ying Wu, Tian-Tian Yi, Chao Liu, You-Rong Li. Multi-objective optimization of evaporation and condensation temperatures for subcritical organic Rankine cycle. Energy, 2015, 83: 723-733.

[39]  Ying-Ying Wu, Shuang-Ying Wu, Lan Xiao, Performance analysis of photovoltaic–thermoelectric hybrid system with and without glass cover, Energy Conversion and Management, 2015, 93: 151-159.

[40]  Shuang-Ying Wu, Zu-Guo Shen, Lan Xiao, De-Lei Li. Experimental study on combined convective heat loss of a fully open cylindrical cavity under wind conditions. International Journal of Heat and Mass Transfer, 2015, 83: 509-521.

[41]  Zu-Guo Shen, Shuang-Ying Wu, Lan Xiao, De-Lei Li, Ke Wang. Experimental and numerical investigations of combined free convection and radiation heat transfer in an upward-facing cylindrical cavity. International Journal of Thermal Sciences, 2015, 89: 314-326.

[42]  Shuang-Ying Wu, Chun Li, Lan Xiao, You-Rong Li, Chao Liu. The role of outlet temperature of flue gas in organic Rankine cycle considering low temperature corrosion. Journal of Mechanical Science and Technology, 2014, 28(12): 5213-5219.

[43]  Shuang-Ying Wu, Feng-Hua Guo, Lan Xiao. A review on the methodology for calculating heat and exergy losses of a conventional solar PV/T system. International Journal of Green Energy, 2015, 12(4): 379-397.

[44]  Shuang-Ying Wu, Chun Li, Lan Xiao, Chao Liu, You-Rong Li. A comparative study on thermo-economic performance between subcritical and transcritical Organic Rankine Cycles under different heat source temperatures. Chinese Science Bulletin, 2014, 59(33): 4379-4387.

[45]  Shuang-Ying Wu, Ying-Ying Wu, Lan Xiao. Effect of thermal radiation on convection heat transfer in cooling channel of photovoltaic thermal system. Journal of Mechanical Science and Technology, 2014, 28(8):3353-3360.

[46]  Shuang-Ying Wu, Shu-Meng Zhou, Lan Xiao, You-Rong Li, Chao Liu, Jin-Liang Xu. Determining the optimal pinch point temperature difference of evaporator for waste heat recovery. Journal of the Energy Institute, 2014, 87(2): 140-151.

[47]  Shuang-Ying Wu, Feng-Hua Guo, Lan Xiao. Numerical investigation on combined natural convection and radiation heat losses in one side open cylindrical cavity with constant heat fluxInternational Journal of Heat and Mass Transfer, 2014, 71: 573-584.

[48]  Shuang-Ying Wu, Jing-Rui Jiu, Lan Xiao, You-Rong Li, Chao Liu, Jin-Liang Xu. Exergo-economic analysis of finned tube for waste heat recovery including phase change heat transfer. Journal of Mechanical Science and Technology, 2013, 27 (11): 3513~3523.

[49]  Shuang-Ying Wu, Jing-Yu Guan, Lan Xiao, Zu-Guo Shen, Lian-Hui Xu. Experimental investigation on heat loss of a fully open cylindrical cavity with different boundary conditions. Experimental Thermal and Fluid Science, 2013, 45: 92-101.

[50]  Shuang-Ying WuLiang JiangLan XiaoYou-Rong LiJin-Liang Xu. An Investigation on the exergo-economic performance of an evaporator in ORC recovering low-grade waste heat. International Journal of Green Energy, 2012, 9(8): 780-799.

[51]  Shuang-Ying Wu, Si-Min Chen, Lan Xiao, You-Rong Li. Extended exergo-economic performance evaluation criteria for enhanced heat transfer duct with constant wall heat flux. International Journal of Exergy, 2012, 11(1): 89-111.

[52]  Lan Xiao, Shuang-Ying Wu, You-Rong Li. Numerical study on combined free-forced convection heat loss of solar cavity receiver under wind environments. International Journal of Thermal Sciences, 2012, 60: 182-194.

[53]  Lan Xiao, Shuang-Ying Wu, Qiao-Ling Zhang, You-Rong Li. Theoretical investigation on thermal performance of heat pipe flat plate solar collector with cross flow heat exchanger. Heat and Mass Transfer, 2012, 48(7): 1167-1176.

[54]  Shuang-Ying Wu, Bao-Xi Cao, Lan Xiao, You-Rong Li. Parametric study on flow and heat transfer characteristics of porous wick evaporator based on AMTEC. Journal of Mechanical Science and Technology, 2012, 26(3): 973-981.

[55]  Lan Xiao, Shuang-Ying Wu, You-Rong Li. Natural convection heat loss estimation of solar cavity receiver by incorporating a modified aperture ratio. IET Renewable Power Generation, 2012, 6(2): 122-128.

[56]  Shuang-Ying Wu, Lan Xiao, Si-Min Chen, You-Rong Li, Jin-Liang Xu, Chao Liu. Exergo-economic criteria for performance evaluation of enhanced heat transfer duct with constant wall temperature. Applied Thermal Engineering, 2012, 36: 393-402.

[57]  Lan Xiao, Shuang-Ying Wu, You-Rong Li. Advances in solar hydrogen production via two-step water-splitting thermochemical cycles based on metal redox reactions. Renewable Energy, 2012, 41: 1-12.

[58]  Shuang-Ying Wu, Qiao-Ling Zhang, Lan Xiao, Feng-Hua Guo. A heat pipe photovoltaic/thermal (PV/T) hybrid system and its performance evaluation. Energy and Buildings, 2011, 43(12): 3558–3567.

[59]  Shuang-Ying Wu, Su-Jun Chen, Lan Xiao and You-Rong Li. Numerical investigation on developing laminar forced convective heat transfer and entropy generation in an annular helicoidal tube. Journal of Mechanical Science and Technology, 2011, 25(6): 1439-1447.

[60]  Shuang-Ying WuLan Xiao. Comparative study of the effect of fouling on heat exchangers performance based on the first and second laws of thermodynamics. International Journal of Exergy, 2011, 9(1): 1-20.

[61]  Shuang-Ying Wu, Lan Xiao, Yiding Cao, You-Rong Li. A parabolic dish/AMTEC solar thermal power system and its performance evaluation. Applied Energy, 2010, 87(2): 452-462.

[62]  Shuang-Ying Wu, Lan Xiao, Yiding Cao, You-Rong Li. Convection heat loss from cavity receiver in parabolic dish solar thermal power system: A review. Solar Energy, 2010, 84(8): 1342-1355.

[63]  Shuang-Ying WuXiao-Feng YuanYou-Rong Li. Two non-dimensional exergy transfer performance parameters of heat exchanger. International Journal of Exergy, 2010, 7(1): 130-145.

[64]  Shuang-Ying Wu, Xiao-Feng Yuan, You-Rong Li. The effect of fouling on low temperature heat exchangers performance based on exergy analysis. Journal of Superconductivity and Novel Magnetism, 2010, 23(6): 1119-1122.

[65]  Shuang-Ying Wu, Lan Xiao, Yi-Ding Cao. A review on advances in alkali metal thermal to electric converters (AMTECs). International Journal of Energy Research, 2009, 33(10): 868-892.

[66]  Shuang-Ying Wu, Su-Jun Chen, You-Rong Li, Long-Jian Li. Numerical investigation of turbulent flow, heat transfer and entropy generation in a helical coiled tube with larger curvature ratio. Heat and Mass Transfer, 2009, 45(5): 569-578.

[67]  Shuang-Ying Wu, You-Li Zhang, You-Rong Li. Exergy transfer analysis of forced convection in external flow over a flat plate. Journal of Non-Equilibrium Thermodynamics, 2009, 34(4): 335-354.

[68]  Shuang-Ying WuYou-Li ZhangYou-Rong Li. Exergy transfer analysis of a pin fin in external flow. International Journal of Exergy, 2009, 6(6): 761-777.

[69]  Shuang-Ying Wu, You-Rong Li, Yan Chen, Lan Xiao. Exergy transfer characteristics of forced convective heat transfer through a duct with constant wall temperature. Energy, 2007, 32(12): 2385-95.

[70]  Shuang-Ying Wu, Xiao-Feng Yuan, You-Rong Li, Lan Xiao. Exergy transfer effectiveness on heat exchanger for finite pressure drop. Energy, 2007, 32(11): 2110-2120.

[71]  Shuang-Ying Wu, Yan Chen, You-Rong Li, Dan-Ling Zeng. The effect of fouling on thermodynamic performance of forced convective heat transfer through a duct. Energy Conversion and Management, 2007, 48(8): 2399-2406.

[72]  Shuang-Ying Wu, Yan Chen, You-Rong Li, Dan-Ling Zeng. Exergy transfer characteristics of forced convective heat transfer through a duct with constant wall heat flux. Energy, 2007, 32(5): 686-696.

[73]  Shuang-ying Wu, Xiao-Feng Yuan, You-Rong Li, Lan Peng. Exergy Transfer characteristics on low temperature heat exchangers. International Journal of Modern Physics B, 2007, 21(18/19): 3503-3505.