1. Hongliang Chang, Zeran Han, Xionghui Li, Ting Ma, Qiuwang Wang, Experimental investigation on heat transfer performance based on average thermal-resistance ratio for supercritical carbon dioxide in asymmetric airfoil-fin printed circuit heat exchanger, Energy, 254: 124164, 2022.

2. Zhigang Guo, Xing Tian, Zhihong Wu, Jian Yang, Qiuwang Wang, Heat transfer of granular flow around aligned tube bank in moving bed: Experimental study and theoretical prediction by thermal resistance model, Energy Conversion and Management, 257: 115435, 2022.

3. Zhihong Wu, Zhigang Guo, Jian Yang, Qiuwang Wang, Effect of diameter distribution of particles on methane steam reforming in multi-channel grille-sphere composite packed bed, Energy Conversion and Management, 265: 115764, 2022.

4. Wei Cui, Xiangxuan Li, Xinyi Li, Lin Lu, Ting Ma, Qiuwang Wang, Combined effects of nanoparticles and ultrasonic field on thermal energy storage performance of phase change materials with metal foam, Applied Energy, 309:118465, 2022.

5. Hongliang Chang, Zeran Han, Xionghui Li, Ting Ma, Qiuwang Wang, Experimental study on heat transfer performance of sCO(2) near pseudo-critical point in airfoil-fin PCHE from viewpoint of average thermal-resistance ratio, International Journal of Heat and Mass Transfer, 196: 123257, 2022.

6. Zehan Cao, Hao Zhang, Haohan Mei, Gang Yan, Wenxiao Chu, Qiuwang Wang, Numerical Study on R32 Flow Condensation in Horizontally Oriented Tubes with U-Bends, Energies, 15(13): 4799, 2022.

7. Wei Cui, Zehan Cao, Xinyi Li, Lin Lu, Ting Ma, Qiuwang Wang, Experimental investigation and artificial intelligent estimation of thermal conductivity of nanofluids with different nanoparticles shapes, Powder Technology, 398: 117078, 2022.

8. Karem Elsayed Elfeky *, Abubakar Gambo Mohammed, Qiuwang Wang*, Performance prediction and optimization of a three-layer thermocline tank using the response surface method, Computers & Chemical Engineering, 165: 107960, 2022. 2022.09

9. Wei Cui, Tianyu Si, Xiangxuan Li, Xinyi Li, Lin Lu, Ting Ma, Qiuwang Wang, Heat transfer enhancement of phase change materials embedded with metal foam for thermal energy storage: A review, Renewable & Sustainable Energy Reviews, 169: 112912, 2022. 2022.11

10. Wei Cui, Xiangxuan Li, Xinyi Li, Tianyu Si, Lin Lu, Ting Ma, Qiuwang Wang, Thermal performance of modified melamine foam/graphene/paraffin wax composite phase change materials for solar-thermal energy conversion and storage, Journal of Cleaner Production, 367: 133031, 2022.

11. Abubakar Gambo Mohammed, Karem Elsayed Elfeky, Qiuwang Wang, Recent advancement and enhanced battery performance using phase change materials based hybrid battery thermal management for electric vehicles, Renewable $ Sustainable Energy Reviews, 154:111759, 2022.

12. Jingyu Wang, Jian Yang, Bengt Sunden*, Qiuwang Wang, Hydraulic and heat transfer characteristics in structured packed beds with methane steam reforming reaction for energy storage, International communications in Heat and Mass Transfer, 121: 105109, 2021

13. Zhigang Guo, Xing Tian, Jian Yang, Tuo Shi, Qiuwang Wang, Comparison of heat transfer in gravity-driven granular flow near different surfaces, Journal of Thermal Science, 30(2):441-450, 2021

14. Zhigang Guo, Zhoutuo Tan, Xing Tian, Zhihong Wu, Tian Wang, Jian Yang, Qiuwang Wang, Heat transfer prediction of granular flow in moving bed heat exchanger: Characteristics of heat transfer enhancement and dynamic control, Solar Energy, 230: 1052-1069, 2021

15. Ting Ma, Pan Zhang, Jie Lian, Hanbing Ke, Wei Wang, Yuansheng Lin, Qiuwang Wang, Numerical study on flow and heat transfer performance of natural gas in a printed circuit heat exchanger during transcritical liquefaction, ASME-Journal of Fluids Engineering, 143(4): 040901, 2021.

16. Zhigang Guo, Jian Yang, Shang Zhang, Zhoutuo Tan, Xing Tian, Qiuwang Wang, Numerical calibration for thermal resistance in discrete element method by finite volume method, Power Technology, 383:584-597,2021.

17. Zhigang Guo, Xing Tian, Zhoutuo Tan, Jian Yang, Shang Zhang, Qiuwang Wang, Numerical investigation of heat resistances in uniform dense granular flows along a vertical plate, Power Technology, 385:396-408, 2021.

18. Ting Ma, Pan Zhang, Tianrui Deng, Hanbing Ke, Yuansheng Lin, Qiuwang Wang, Thermal-hydraulic characteristics of printed circuit heat exchanger used for floating natural gas liquefaction, Renewable and Sustainable Energy Reviews, 137: 110606 ,2021.

19. Hongliang Chang, Jie Lian, Ting Ma, Long Li, Qiuwang Wang, Design and optimization of an annular air-hydrogen precooler for advanced space launchers engines, Energy Conversion and Management, 241: 114279, 2021.

20. Syed Murawat Abbas Naqvi, Qiuwang Wang, Performance enhancement of shell-tube Heat Exchanger by Clamping Anti-Vibration Baffles with Porous Media Involvement, Heat Transfer Engineering, 42(18): 1523-1538, 2021.

21. Xinyi Li, Wei Cui, Terrence Simon, Ting Ma, Tianhong Cui, Qiuwang Wang, Pore-scale analysis on selection of composite phase change materials for photovoltaic thermal management，Applied Energy, 302:117558, 2021.

22. Zhigang Guo, Jian Yang, Zhoutuo Tan, Xing Tian, Qiuwang Wang, Numerical study on gravity-driven granular flow around tube out-wall: Effect of tube inclination on the heat transfer, International Journal of Heat Transfer, 174:121296, 2021.

23. Xinyi Li, Jitong Duan, Terrence Simon, Ting Ma, Tianhong Cui, Qiuwang Wang, Nonuniform metal foam design and pore-scale analysis of a tilted composite phase change material system for photovoltaics thermal management, Applied Energy, 298:117203, 2021.

24. Zhihong Wu, Jingyu Wang, Bingjing Xie, Jian Yang, Qiuwang Wang, Methane steam reforming with axial variable diameter particle structures in grille-sphere composite packed bed: A numerical study of hydrogen production performance, Energy Conversion and Management, 240: 114163, 2021.

25. Xiangxuan Li, Xinyi Li, Wei Cui, Ting Ma, Lin Lu, Qiuwang Wang, Effect of acoustic streaming on heat transfer of porous composite phase change material by using lattice boltzmann simulation, ASME-Journal of Heat Transfer., 143(9): 092701, 2021.

26. Wenxiao Chu, Gang Yan, Hao Zhang, Fufeng Zhao, Qingxian Wang, Qiuwang Wang, A review on experimental investigations of refrigerant/oil mixture flow boiling in horizontal channels, Applied Thermal Engineering, 196: 117270, 2021.

27. Zhilong Cheng, Pei Fu, Zhigang Guo, Jian Yang, Qiuwang Wang, CFD prediction of heat/mass transfer in multi-layer sintering process assisted with gaseous fuel injection, International Communications in Heat and Mass Transfer, 128: 105654, 2021.

28. Zhilong Cheng, Zhigang Guo, Pei Fu, Jian Yang, Qiuwang Wang, New insights into the effects of methane and oxygen on heat/mass transfer in reactive porous media, International Communications in Heat and Mass Transfer, 129:105652, 2021.

29. Ting Ma, Yitung Chen, Aleksandr N Pavlenko, Qiuwang Wang, Heat and mass transfer advances for energy conservation and pollution control in a renewable and sustainable energy transition, Renewable & Sustainable Energy Reviews, 145:111087, 2021.

西安交通大学能源与动力工程学院

热流科学与工程教育部重点实验室

陕西省西安市咸宁西路28号，邮编：710049

电子邮件：wangqw@mail.xjtu.edu.cn

电话及传真：+86-29-82665539

个人网页：http://wangqw.gr.xjtu.edu.cn

小组网页：http://cemta.xjtu.edu.cn/

ResearcherID http://www.researcherid.com/rid/F-7711-2010

ORCID: https://orcid.org/0000-0001-9664-7121

 王秋旺， 博士， 二级教授

教育科研经历

湖北黄冈人，1987年考入西安交通大学动力系，1996年毕业于西安交通大学能源与动力工程学院（直接攻博），获工程热物理专业博士学位并留校任教。1996年被评选为“西安交通大学十大杰出学子”和“陕西省优秀毕业生”，1998年破格晋升为副教授，2001年破格晋升为教授，2003年晋升为博士生导师，2011年被聘为二级教授。1998年5月至1999年3月任香港城市大学访问学者，2003年9月至2003年12月任日本九州大学客座教授，2012年12月至2013年6月任美国罗格斯大学高级研究学者，2024年2月-3月，法国南特大学，客座教授。

科研成就：

王秋旺在节能与绿色换热装备领域，针对常温常压传热，提出了连续螺旋推流实现强化传热的新方法，突破了国际上传统折流板管壳式换热装备一直以来依靠流体的速度大小及其方向的突变来强化传热的传统理念，发明了单壳程、多壳程组合式连续螺旋折流板等新结构，以及最大流速比优化设计方法，解决了这类换热装备存在的压损大、易积垢和管束振动难题；针对高温高压传热，提出了非均匀一体化强化传热的新方法，突破了国际上采用均匀或分体式强化传热的传统理念，发明了相应的非均匀一体化结构及其设计方法，解决了这类换热装备存在的效率低、体积重量大及成本高的难题。成果应用于大庆油田、鞍钢、哈锅等行业龙头企业，以及中船 719 所、航天六院等国防军工单位，产生了良好的经济效益和军事效益。

截止2025年6月，发表 SCI 论文 552 篇、英文专著 1 部，WOS 他引 11000余次，ESI 高被引论文 11 篇、热点 5 篇，自 2021 年起连续入选 Elsevier 高被引学者并入选终身影响力榜单。在国际传热大会等国际会议做大会/邀请报告 43 次。授权中国发明专利114项，美国专利7项。制定国家标准3项。发起 “节能控排传热进展国际研讨会"（IWHT-两年一次，2011起）和“储能与节能国际会议"(ICENSS-每年一次， 2022起)。关于连续螺旋推流和高温/高压换热装备的成果已写入第六版《传热学》国家级规划教材。