科研获奖

(1) 西安交通大学热质传递的数值预测控制及其工程应用创新团队,2017年度国家科技进步奖创新团队奖(一等奖)

(2) 高效节能的连续螺旋推流强化传热技术及应用,2015年度国家技术发明二等奖

(3) 连续螺旋折流板和纵向波纹内翅片管壳式换热器关键技术及应用,2012年度教育部技术发明一等奖

(4) 船舶动力冷却系统增效减阻降噪关键技术与应用,2019年度湖北省技术发明一等奖【与中国船舶重工集团公司第七一九研究所合作】

发明专利

美国授权发明专利

  1. Qiuwang Wang, Qiuyang Chen, Dongjie Zhang, Min Zeng, Yining Wu, Qiang Gao. A Single shell-pass or multiple shell-pass shell-and-tube heat exchanger with helical baffles, US Patent, Serial Number: 11/966,256, Filed Date: December 28, 2007, Published Date: August 14, 2008, Issue Date: June 22, 2010, U.S. Patent 7,740,057 B2
  2. Qiuwang Wang, Qiuyang Chen, Dongjie Zhang, Min Zeng, Yining Wu, Qiang Gao. Shell-and-tube heat exchanger with helical baffles, US Patent, Serial Number: 12/764,702, Filed Date: April 21, 2010, Published Date: April 28, 2011, Issue Date: September 24, 2013, U.S. Patent 8,540,011 B2
  3. Qiuwang Wang, Zhoutuo Tan, Yunjia Yao, Chengning Yao, Jiapei Yang, Yougang Ruan, Heat exchanger, US Patent, Serial Number: 15/748,889, Filed Date: January 30, 2018, Issue Date: December 13, 2019, U.S. Patent (Temporarily unknown)

中国授权发明专利

  1. 王秋旺,贺群武,罗来勤,曾敏,钟文凯,杨小明,一种管壳式换热器,专利号:ZL 2003 10105835.5,授予日期:2006118
  2. 王秋旺,梁红侠,罗来勤,吴一宁,柏巍,丰镇平,李国君,一种燃气轮机原表面回热器,专利号:ZL 200410025911.6,授予日期:2007530
  3. 王秋旺,张冬洁,王士元,罗来勤,曾敏,吴一宁,一种焊接单元组片和由其组成原表面回热器芯体的方法,专利号:ZL 200510041940.6,授予日期:2007725
  4. 王秋旺,张冬洁,曾敏,罗来勤,吴一宁,一种新风换气机用原表面换热器,专利号:ZL 200510042697.X,授予日期:20071128
  5. 王秋旺,梁红侠,罗来勤,曾敏,吴一宁,丰镇平,一种适用于微型燃气轮机的原表面回热器,专利号:ZL 200510042727.7,授予日期:2007530
  6. 王秋旺,陈秋炀,彭波涛,曾敏,罗来勤,吴一宁,一种连续螺旋折流板管壳式换热器,专利号:ZL 200510043033.5,授予日期:2008130
  7. 王秋旺,陈秋炀,曾敏,吴一宁,罗来勤,一种多壳程螺旋折流板管壳式换热器,专利号:ZL 200610041949.1,授予日期:200857
  8. 王秋旺,张冬洁,曾敏,吴一宁,王士元,一种微型燃气轮机用环形原表面回热器加工工艺,专利号:ZL 200610104725.0,授予日期:2008716
  9. 王秋旺,张冬洁,曾敏,吴一宁,组合螺旋折流板管壳式换热器,专利号:ZL 200710017395.6,授予日期:2009121
  10. 王秋旺, 陈秋炀, 曾敏, 吴一宁, 高强, 一种组合式多壳程螺旋折流板管壳式换热器,专利号:ZL 200710017478.5,授予日期:20081119
  11. 王秋旺, 章大海,陈秋炀, 曾敏, 一种开槽气膜冷却孔,专利号:ZL 200710017790.4,授予日期:200956
  12. 王秋旺, 陈秋炀, 曾敏, 吴一宁, 一种双层连接体平板固体氧化物燃料电池堆,专利号:ZL 200810150543.6,授予日期:2010721
  13. 王秋旺, 马挺,陈秋炀, 一种内外翅片插管式高温换热器,专利号:ZL 200810150820.3,授予日期:2010721
  14. 王秋旺, 陈贵冬, 曾敏,一种并行组合式多壳程螺旋折流板管壳式换热器,专利号:ZL 200910021347.3,授予日期:2010811
  15. 王秋旺, 马挺, 王士元,曾敏,吉彦鹏,内翅片管高温真空钎焊夹具,专利号:ZL 201010199314.0,授权日期:20120201
  16. 王秋旺,杨建锋,陈贵冬,曾敏,一种组合式单壳程连续螺旋折流板管壳式换热器,专利号:ZL 201210036769.X,授权日期:20130801
  17. 王秋旺,刘衍,杨剑,王劲,程志龙,李文欣,一种高温物料竖式冷却机及余热利用系统,专利号:ZL 201310342921.1,授权日期:20150409
  18. 王秋旺,杨建锋,曾敏,一种连续螺旋折流板管壳式换热器的热力设计方法,专利号:ZL 201310434980.1,授权日期:20160330
  19. 王秋旺,严敏,曾敏,马挺,张洁,一种类螺旋状连接体平板固体氧化物燃料电池堆,专利号:ZL 201310676228.8,授权日期:20161207
  20. 王秋旺,谈周妥,姚韵嘉,姚程宁,杨家培,阮有钢,换热器,专利号:ZL 201610623613.X,授权日期:20170623
  21. 王秋旺,程志龙,郭志罡,杨剑,魏赏赏,一种烧结机,专利号:ZL 201611048579.4,授权日期:20170922
  22. 王秋旺,褚雯霄,马挺,曾敏,一种非均匀分布肋片的高温高压板式换热器,专利号:ZL 201510941222.8,授权日期:20171020
  23. 王秋旺,苏博渊,宋鹤群,刘璐园,刘妍杉,一种封闭式高效蒸发-冷凝即热式热水器,专利号:ZL 201510250211.5,授权日期:201815
  24. 王秋旺,栾宇轩,牟善聪,吴俊南,刘航滔,容思琦,张辉,适用于多材料的便携式热电偶点焊机,专利号:ZL 201610292515.2,授权日期:2018417
  25. 王秋旺,刘衍,杨剑,王晶钰,程志龙,一种回收烧结过程余能的有机工质朗肯循环发电系统,专利号:ZL 201610243059.2,授权日期:20181207
  26. 王秋旺,蒲宇辰,王作为,朱子良,张卓,朱蕾,张猛威,马挺,李馨怡,储热单元,专利号:ZL201710615461.3,授权日期:20181214
  27. 王秋旺,张攀,马挺,一种气气高温换热器,专利号:ZL201710615447.3,授权日期:20181214
  28. 王秋旺,辛菲,马挺,李雄辉,邓天瑞,喷淋蚀刻系统,专利号:ZL201711153828.0,授权日期:201942
  29. 王秋旺,石昊宁,马挺,一种多通道板式换热器进出口设计方法,专利号:ZL201710839087.5,授权日期:2019412
  30. 王秋旺,魏赏赏,卞庆飞,程志龙,胡映学,一种基于真空相变原理的速热式电热水器,专利号:ZL2016103525265,授权日期:2019430
  31. 王秋旺,萨仁满都呼,马挺,曾敏,一种换热器系统热力设计方法,专利号:ZL2017100477457,授权日期:2019619
  32. 王秋旺,李雄辉,马挺,曾敏,褚雯霄,一种螺旋推流通道板式换热器,专利号:ZL201711209065.7,授权日期:2019823
  33. 王秋旺,谈周妥,郭志罡,田兴,杨剑,一种蓄热式不锈钢渣余热回收装置和方法, 专利号: ZL201910157508.5,授权日期: 20200421
  34. 王秋旺,王晶钰,杨剑,一种格架颗粒复合床堆积方法,专利号:ZL201910691080.2,授权日期:20200714
  35. 王秋旺,程志龙,杨剑,付佩,郭志罡,一种多孔介质模型设计方法,专利号:ZL201910140243.8,授权日期:20201030
  36. 王秋旺,石昊宁,马挺. 一种印刷电路板式蒸汽发生器的制造方法及该种方法制造的蒸汽发生器, 专利号: ZL202010050708.3,授权日期:20210111
  37. 王秋旺,徐诗睿,李舒,黎钦懿,马道洋,用于口罩的滤芯,专利号:ZL201810851055.1,授权日期:20210330
  38. 王秋旺,付佩,杨剑,一种固体氧化物燃料电池梯度孔隙率阳极及燃料电池, 专利号:201810565539.X,授权日期:20210119
  39. 王秋旺,程志龙,杨剑,郭志罡,谈周妥,一种基于气体喷吹的烧结在线调控方法及系统,专利号:ZL 202010411684.X,授权日期:20210504
  40. 王秋旺,宋远胜, 付佩,杨剑, 一种管式固体氧化物燃料电池结构,专利号:ZL 202010038144.1,授权日期:20210316
  41. 曾敏,凌伟豪,王秋旺,一种基于相变材料的除霜时补偿室内温度变化的空调系统,专利号:ZL 202010976392.0,授权日期:2021716
  42. 曾敏,张廉洁,李雄辉,邹安琪,马挺,王秋旺,一种多参数自动调控高效旋转式喷淋蚀刻系统,专利号:ZL 202010810676.2,授权日期:202197
  43. 曾敏,李年祺,王秋旺,一种超疏水-亲水表面真空腔散热器,专利号:ZL 201911019731X,授权日期:202197
  44. 赵存陆,闫慧龙,张文耀,崔永赫,钱芳,王秋旺,可供含氧化层的镓基液态金属高速流动的毛细铜管及其制备方法,专利号:ZL 202010866793.0,授权日期:2021713
  45. 杨剑,田兴,郭志罡,王秋旺,一种自均衡防堵固体散料换热器,专利号:ZL 201911329114.X,授权日期:2021420
  46. 杨剑,田兴,郭志罡,谈周妥,王秋旺,立式多级流动固体散料换热器,专利号:ZL 201811391020.0,授权日期:2021528
  47. 杨剑,田兴,贾浩楠,郭志罡,谈周妥,王秋旺,一种周期性速度梯度和速度定向调控颗粒流换热装置及方法,专利号:ZL 202010752755.2,授权日期:2021813
  48. 曾敏,丁雨,陈坚,王秋旺,一种扭转曲折百叶窗翅片,专利号:ZL 202010810663.5,授权日期:202157
  49. 曾敏,李威,王秋旺,一种用于吸附式热化学储能及建筑供暖的整体式结构,专利号:ZL 201910943177.8,授权日期:2021713
  50. 曾敏,李威,王秋旺,水合盐基中低温化学蓄热材料及制备方法,专利号:ZL 202010759968.8,授权日期:2021423
  51. 曾敏,李威,菅朝栋,王秋旺,基于化学储热的产电供热制冷取水结合的系统及方法,专利号:ZL 202010972093. X,授权日期:202176
  52. 林梅,朱子良,苏博,王秋旺,一种抑制疲劳损伤的枝型通道结构,专利号:ZL 201911388050.0,授权日期:2021316
  53. 赵存陆,黄灯,钱芳,王秋旺,一种控制微通道内幂律流体体积流量的装置及方法,专利号ZL 201910611019.2,授权日期:2021119
  54. 赵存陆,黄灯,钱芳,王秋旺,一种测量幂律流体流动参数的便携装置和方法,专利号ZL 201910611051.0,授权日期:2021119

科研论文

  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 managementApplied 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.