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  • 教授
  • 博士生导师
  • 教师拼音名称:Song KeWei
  • 所在单位:机电工程学院、铁道车辆热工教育部重点实验室
  • 联系方式:QQ:376768922
  • 学位:博士学位
  • 学科:工程热物理
    车辆工程
    动力工程及工程热物理其他专业
    机械工程其他专业
科学研究
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研究领域

  • 流动与传热数值方法、热管理技术、太阳能高效利用、微重力热磁对流;

    强化传热技术、先进热交换技术、节能技术、储能技术、高效换热设备;

    车辆热工、先进换热设备、车辆/电池热管理、载运工具热工、机械装备强化传热技术

论文成果

  • 1. Performance optimization of a wavy finned-tube heat exchanger with staggered curved vortex generators.International Journal of Thermal Sciences 2023(183):107830.      IF=4.779

    1. Thermodynamic characteristics of a novel combination of three-start twisted tube and oval dimples. Case Studies in Thermal Engineering, 2022(37) 102284.     IF=6.268

    2. Thermal-hydraulic characteristic of a novel wavy fin-and-circle tubeheat exchanger with concave curved vortex generators. Int. J. Heat Mass Tran., 194 (2022) 123023.     IF=5.431

    3. Heat transfer enhancement of a double pipe heat exchanger by Co-Twisting oval pipes with unequal twist pitches. Case Studies in Thermal Engineering, 28(2021), 101411.     IF=6.268

    4. The optimal longitudinal location of curved winglets for better thermal performance of a finned-tube heat exchanger.International Journal of Thermal Sciences,167(2021)107035.     IF=4.779

    5. Thermal performance enhancement of a double-tube heat exchanger with novel twisted annulus formed by counter-twisted oval tubes, International Journal of Thermal Sciences, 164 (2021) 106892.     IF=4.779

    6. Heat transfer enhancement in a novel annular tube with outer straight and inner twisted oval tubes, Symmetry, 12 (8) (2020), 1213.     IF=2.940

    7. Effects of Inclination Angle of Vortex Generator on Fluid Flow and Heat Transfer Characteristics of Heat Exchanger, Tuijin Jishu/Journal of Propulsion Technology, 41 (4) (2020) 868-874.

    8. Numerical study of the intensity correlation between secondary flow and heat transfer of circle tube-finned heat exchanger with vortex generators CMES - Computer Modeling in Engineering and Sciences, 123 (1) (2020) 237-256.

    9. Thermal performance of a zig-zag channel formed by two wavy fins mounted with vortex generators. International Journal of Thermal Sciences, 153 (2020) 106361.    IF=4.779

    10. Flow symmetry and heat transfer characteristics of winglet vortex generators arranged in common flow up configuration, Symmetry 12 (2020) 247.    IF=2.940

    11. Characteristics of flow symmetry and heat transfer of winglet pair in common flow down configuration, Symmetry 12 (2020) 209.     IF=2.940

    12. Thermo-hydraulic performance optimization of wavy fin heat exchanger by combining delta winglet vortex generators. (2019) Applied Thermal Engineering, 163,  114343.     IF=6.465

    13. Stability of an axisymmetric liquid metal flow driven by a multi-pole rotating magnetic field. (2019) Fluids, 4 (2),  77

    14. Heat transfer characteristics of concave and convex curved vortex generators in the channel of plate heat exchanger under laminar flow. (2019) International Journal of Thermal Sciences, 137, pp. 215-228.     IF=4.779

    15. Thermomagnetic convection of paramagnetic gas in an enclosure under no gravity condition. (2019) Fluids, 4 (1),  49. 

    16. The optimal arrangement of vortex generators for best heat transfer enhancement in flat-tube-fin heat exchanger (2018) International Journal of Thermal Sciences, 132, pp. 355-367.     IF=4.779

    17. Effects of fin pitch and tube diameter on the air-side performance of tube bank fin heat exchanger with the fins punched plane and curved rectangular vortex generators (2018) Experimental Heat Transfer, 31 (4), pp. 297-316.    IF=3.272

    18. Thermomagnetic convection of oxygen in a square enclosure under non-uniform magnetic field (2018) International Journal of Thermal Sciences, 125, pp. 52-65.     IF=4.779

    19. Heat transfer and pressure drop characteristics of the tube bank fin heat exchanger with fin punched with flow redistributors and curved triangular vortex generators (2017) Heat and Mass Transfer/Waerme- und Stoffuebertragung, 53 (10), pp. 3013-3026. 

    20. Effect of geometric size of curved delta winglet vortex generators and tube pitch on heat transfer characteristics of fin-tube heat exchanger. Experimental Thermal and Fluid Science 04/2017; 82: 8-18.  IF=3.37

    21. KeWei Song, LiangBi Wang: Effects of longitudinal vortex interaction on periodically developed flow and heat transfer of fin-and-tube heat exchanger. International Journal of Thermal Sciences 11/2016; 109: 206-216. IF=4.779

    22. KeWei Song, WanLing Hu, Song Liu, LiangBi Wang: Quantitative relationship between secondary flow intensity and heat transfer intensity in flat-tube-and-fin air heat exchanger with vortex generators. Applied Thermal Engineering 06/2016;103:1064-1070.    IF=6.465

    23. Fei Duan, KeWei Song, HouRan Li, LiMin Chang, YongHeng Zhang, LiangBi Wang: Numerical study of laminar flow and heat transfer characteristics in the fin side of the intermittent wavy finned flat tube heat exchanger. Applied Thermal Engineering 06/2016; 103: 112-127.    IF=6.465

    24. KeWei Song, Song Liu, LiangBi Wang: Relationship between longitudinal vortex intensity and heat transfer intensity of flat tube heat exchanger. CIESC Journal 05/2016; 67: 1858-1867.

    25. KeWei Song, Song Liu, LiangBi Wang: Interaction characteristics between longitudinal vortices with counter-rotating directions in heat exchanger channel. CIESC Journal 04/2016; 67: 1233-1243.  

    26. JingFa Li, KeWei Song, Yi Wang, Bo Yu: A grid coarsening strategy for algebraic multigrid method based on local information priority principle. Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics 04/2016; 37: 851-858.

    27. KeWei Song, Song Liu, LiangBi Wang: Interaction of counter rotating longitudinal vortices and the effect on fluid flow and heat transfer. International Journal of Heat and Mass Transfer 02/2016; 93:349-360.    IF=5.431

    28. XiaoYan Zhang, JinLong Zhang, KeWei Song, LiangBi Wang: Numerical study of the sensing mechanism of the oxygen concentration sensor based on thermal magnet convection. International Journal of Thermal Sciences 01/2016; 99:71-84.     IF=4.779

    29. KeWei Song, Liang-Bi Wang: Effects of interaction of longitudinal vortices on the flow field and heat transfer over a flat-tube-and-fin heat exchanger. Journal of Enhanced Heat Transfer 01/2015; 21(6):439-462.

    30. LiangChen Wang, LiMing Chang, LiangBi Wang, KeWei Song, YongHeng Zhang, Xiang Wu: Analysis of the reusability of the energy of the exhaust gas from the calciner for the production of carbon. Energy 12/2014; 78:439-450. IF=8.857

    31. KeWei Song, LiangBi Wang, BiQi Li: Numerical study of magneto-thermal natural convection of air in a square enclosure. Journal of Lanzhou Jiaotong University 12/2014; 23(6):105-109.

    32. KeWei Song, Toshio Tagawa, Liangbi wang, Hiroyuki Ozoe: Numerical investigation for the modeling of the magnetic buoyancy force during the natural convection of air in a square enclosure. Advances in Mechanical Engineering 05/2014; 2014(Article ID 873260):11 pages.

    33. KeWei Song, WenKai Li, Yang Zhou, YuanRu Lu: Numerical study of buoyancy convection of air under permanent magnetic field and comparison with that under gravity field. Mathematical Problems in Engineering 09/014; 2014(Article ID 494585): 13 pages.

    34. KeWei Song, Yang Zhou, WenKai Li, YuanRu Lu: Numerical study of magneto thermal free convection of air under non-uniform permanent magnetic field. Communications in Computer and Information Science 09/2014; 463:55-65.

    35. KeWei Song, Lian-Bi Wang: The effectiveness of secondary flow produced by vortex generators mounted on both surfaces of the fin to enhance heat transfer in a flat tube bank fin heat exchanger. Journal of Heat Transfer 04/2013; 135(4):041902.  IF=1.855

    36. WanLing Hu, KeWei Song, Yong Guan, L-Min Chang, Song Liu, Lian-Bi Wang: Secondary flow intensity determines Nusselt number on the fin surfaces of circle tube bank fin heat exchanger. International Journal of Heat and Mass Transfer 07/2013; 62(1):620-631. IF=5.431

    37. Wei Zhang, Mei Su, KeWei Song, ZhiMin Lin, LiangBi Wang: Study of absolute vortex flux along the main flow direction in a channel formed by tube bank plain fins. Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics 10/2011; 32(10):1734-1736

    38. Mei Su, ZhiMin Lin, Ye Wang, KeWei Song, Liangbi Wang: The criteria of convergence in conjugated simulation of fluid flow and heat transfer in the channel formed by tube bank fins. Progress in Computational Fluid Dynamics An International Journal 06/2011; 11(3).

    39. KeWei Song, Ye Wang, Qiang Zhang, LiangBi Wang, Yan-Jun Liu: Numerical study of the fin efficiency and a modified fin efficiency formula for flat tube bank fin heat exchanger. International Journal of Heat and Mass Transfer 05/2011; 54(11):2661-2672.  IF=5.431

    40. LiangBi Wang, ZhiMin Lin, Xiang Wu, KeWei Song: Differences between laminar convections through parallel plain planes with uniform wall temperature and heat flux in terms of process parameter. Science China Technological Sciences 03/2010; 53(3):789-799.

    41. LiangBi Wang, ZhiMin Lin, KeWei Song, Xiang Wu, Kun Hong: Splitting the contributions of velocity and velocity gradient to the transport of heat flux in laminar convection through a square duct with uniform wall temperature. Computational Thermal Sciences 01/2010; 2(5):439-454.

    42. LiMin Chang, LiangBi Wang, KeWei Song, DongLiang Sun, JuFang Fan: Numerical study of the relationship between heat transfer enhancement and absolute vorticity flux along main flow direction in a channel formed by a flat tube bank fin with vortex generators. International Journal of Heat and Mass Transfer 03/2009; 52(7):1794-1801.

    43. Xiang Wu, LiangBi Wang, KeWei Song: Experimental and numerical analysis of heat transfer and flow characteristics on the air side of a flat tube bank plain fin heat exchanger. Computational Thermal Sciences 01/2009; 1(4):441-460.

    44. YuYing Chen, KeWei Song, LiangBi Wang, DongLiang Sun: Comparisons of local experimental results with numerical results of heat transfer enhancement of a flat tube bank fin with vortex generators. Numerical Heat Transfer Applications 01/2009; 55(2):144-162.

    45. KeWei Song, LiangBi Wang, DongLiang Sun: Convective heat transfer and absolute vorticity flux along main flow in a channel formed by flat tube bank fins with vortex generators mounted on both fin surfaces. Journal of Enhanced Heat Transfer 03/2009; 16(2):123-139. DOI:10.1615/JEnhHeat Transf.v16.i2.30  IF=2.449

    46. Yanjun Liu, LiangBi Wang, KeWei Song: Comparsion of the fin eff iciencies of flat tube fin heat exchange obtained by different methods. Journal of Lanzhou Jiaotong University 2009; 28(3): 144-147

    47. YongHeng Zhang, Xiang Wu, LiangBi Wang, KeWei Song, YuanXin Dong, Sun Liu: Comparison of heat transfer performance of tube bank fin with mounted vortex generators to tube bank fin with punched vortex generators. Experimental Thermal and Fluid Science 10/2008; 33(1-33):58-66.

    48. Song Liu, Liangbi Wang, Jufang Fan, Yongheng Zhang, Yuanxin Dong, KeWei Song: Tube transverse pitch effect on heat/mass transfer characteristics of flat tube bank fin mounted with vortex generators. Journal of Heat Transfer 06/2008; 130(6).

    49. KeWei Song, LiangBi Wang, JuFang Fan, YongHeng Zhang, Song Liu: Numerical study of heat transfer enhancement of finned flat tube bank fin with vortex generators mounted on both surface of the fin. Heat and Mass Transfer 05/2008; 44(8):959-967.

    50. KeWei Song, LiangBi Wang: Relationship between heat transfer intensity and absolute vorticity flux intensity in flat tube bank fin channels with Vortex Generators. Progress in Computational Fluid Dynamics An International Journal 01/2008; 8(7).

    51. KeWei Song, LiangBi Wang: Numerical study of flat-tube bank fin heat exchanger with vortex generators mounted on both sides of fin. Kung Cheng Je Wu Li Hsueh Pao/Journal of Engineering Thermophysics 08/2007; 28:89-92

    52. KeWei Song, Chang Limin, Wang Liangbi: Flow visualization and numerical simulation about the interactions of vortices. Journal of Lanzhou Jiaotong University 12/ 2005; 24(6): 10-13

    53. KeWei Song, WanLing Hu, Song Liu, LiangBi Wang: Quantitative relationship between secondary flow intensity and heat transfer intensity in the fin-side channel of flat tube bank fin heat exchanger. The 5th Asian Symposium on Computational Heat Transfer and Fluid Flow, Busan, 2015.11.22-2015.11.25

    54. JingFa Li, Bo Yu, XinYu Zhang, Yi Wang, KeWei Song: A grid coarsening strategy of algebraic muligrid method based on local information priority principle, The 5th Asian Symposium on Computational Heat Transfer and Fluid Flow, Busan, 2015.11.22-2015.11.25

    55. KeWei Song, Song Liu, LiangBi Wang: The effect of interaction of longitudinal vortices on fluid flow and heat transfer performance of heat exchanger. Proceeding of Annual meeting of Chinese society of Engineering ThermalPhysics-2015; paper ID 153433, DaLian, China, Oct. 30-Nov.2, 2015

    56. KeWei Song, LiangBi Wang, Song Liu: Secondary flow intensity determines the heat transfer intensity of the flat tube bank fin heat exchanger with vortex generators. Proceeding of Annual meeting of Chinese society of Engineering ThermalPhysics-2014; paper ID 143441, Xi’an, China, November, 2014 

    57.  KeWei Song, LiangBi Wang, Interactions of vortices and the augmentation of heat transfer in a flat tube bank fin heat exchanger by vortex generators: The 4th Asian Symposium on Computational Heat Transfer and Fluid Flow (Proceedings of ASCHT2013), June 3-.6, HongKong, 2013

    58. KeWei Song, LiangBi Wang: The application of the non dimensional secondary flow intensity parameter in the tube and fin heat exchanger with vortex generators. Proceeding of Annual meeting of Chinese society of Engineering ThermalPhysics-2012; paper ID 123241, Dongguan, China, November, 2012

    59. Mei Su, LiangBi Wang, Zhimin Lin, KeWei Song: The criteria of convergence in conjugated simulation of fluid flow and heat transfer in the channel formed by tube bank fins, 2nd Asian Symposium on Computational Heat Transfer and Fluid Flow (Proceedings of ASCHT09), Oct. 20-23, Jeju, 2009

    60. Xiang Wu, KeWei Song, LiangBi Wang: The contribution of secondary flow induced by flat tube bank to convective heat transfer in a channel formed by flat tube bank fins, 2nd Asian Symposium on Computational Heat Transfer and Fluid Flow (Proceedings of ASCHT09), Oct. 20-23, Jeju, 2009

    61. KeWei Song, LiangBi Wang, Checking the robustness of numerical method comparing with local experimental results, International Conference on System Design – 2008, Dec 10-12, Tokyo, 2008

    62. KeWei Song, LiangBi Wang, Numerical study of relationship of heat transfer intensity and absolute vortex flux intensity of flat tube bank fin with vortex generators mounted on both surfaces of fin. Asian Symposium on Computational Heat Transfer and Fluid Flow, Xi'an, CHINA, October, 2007.

    63. Kewei Song, Toshio Tagawa,   “Heat transfer enhancement by optimizing the arrangement of vortex generators in flat-tube-fin heat exchanger”, The 11th Pacific Symposium on Flow Visualization and Image Processing, 1-3 December, 2017, kumamoto, Japan

    64. Kewei Song, Toshio Tagawa, “Effects of permanent magnet location and size on thermomagnetic convection in the air-filled square enclosure in zero gravity space”, The 6th Asian Symposium on computational Heat Transfer and Fluid Flow (ASCHT2017), No. 281, 10-13 December, 2017, Chennai, India.

    65. Kewei Song, Toshio Tagawa, “Effects of concave and convex curved vortex generators on heat transfer enhancement of plate-fin heat exchanger”, The 6th Asian Symposium on computational Heat Transfer and Fluid Flow (ASCHT2017), No. 282, 10-13 December, 2017, Chennai, India.

    66. Toshio Tagawa, Kewei Song, “Linear stability analysis for natural convection of liquid metal in the presence of a uniform magnetic field”, The 6th Asian Symposium on computational Heat Transfer and Fluid Flow (ASCHT2017), No. 283, 10-13 December, 2017, Chennai, India.

    67. Toshio Tagawa, Kewei Song, “Spin-up from rest of a liquid-metal free-surface flow in the presence of an axial magnetic field”, The 6th Asian Symposium on computational Heat Transfer and Fluid Flow (ASCHT2017), No. 284, 10-13 December, 2017, Chennai, India.


专利


  • 获授权国际发明专利4件,中国发明专利25件,实用新型专利8件。

       国际发明专利:

    1.       日本发明专利

    2korea1.jpg           韩国发明专利

    3.  Streamlined wavy fin for finned tube heat exchanger              欧盟(德国、英国、意大利、荷兰)发明专利

    4.  Streamlined wavy fin for finned tube heat exchanger              美国发明专利

       中国发明专利:

    5. 圆管管翅式换热器流线型等波幅正/余弦形波纹翅片          中国发明专利

    6椭圆管管翅式换热器流线型变波幅圆弧形波纹翅片               中国发明专利

    7. 椭圆管管翅式换热器流线型等波幅正/余弦形波纹翅片           中国发明专利

    8. 椭圆管管翅式换热器流线型等波幅折线形波纹翅片               中国发明专利

    9. 椭圆管管翅式换热器流线型变波幅抛物形波纹翅片               中国发明专利

    10. 椭圆管管翅式换热器流线型等波幅波纹翅片                       中国发明专利

    11. 椭圆管管翅式换热器流线型等波幅抛物形波纹翅片            中国发明专利

    12. 圆管管翅式换热器流线型变波幅圆弧形波纹翅片               中国发明专利

    13. 椭圆管管翅式换热器流线型等波幅圆弧形波纹翅片             中国发明专利

    14. 圆管管翅式换热器流线型变波幅波纹翅片                          中国发明专利

    15. 椭圆管管翅式换热器流线型变波幅折线形波纹翅片           中国发明专利

    16. 椭圆管管翅式换热器流线型变波幅正余弦形波纹翅片        中国发明专利

    17. 圆管管翅式换热器流线型变波幅折线形波纹翅片            中国发明专利

    18. 圆管管翅式换热器流线型等波幅抛物形波纹翅片           中国发明专利

    19. 圆管管翅式换热器流线型等波幅折线形波纹翅片           中国发明专利

    20. 圆管管翅式换热器流线型等波幅圆弧形波纹翅片           中国发明专利

    21. 圆管管翅式换热器流线型变波幅抛物形波纹翅片           中国发明专利

    22. 圆管管翅式换热器流线型变波幅正/余弦形波纹翅片        中国发明专利

    23. 椭圆管管翅式换热器流线型变波幅波纹翅片                中国发明专利

    24. 椭圆管管翅式换热器流线型变波幅正/余弦形波纹翅片     中国发明专利

    25. 圆管管翅式换热器流线型等波幅波纹翅片                        中国发明专利

    26. 组合式三角形曲面涡产生器式圆管管翅换热器                    中国发明专利

    27. 组合式圆管管翅换热器                                            中国发明专利

    28. 曲面涡产生器式圆管管翅换热器                            中国发明专利

    29. 一种新能源汽车用动力电机悬置机构                       中国发明专利

       中国实用新型专利:

    30. 一种可振动矩形翼涡产生器                             中国实用新型专利

    31. 一种非稳定来流的三角翼的圆管管翅换热器           中国实用新型专利

    32. 一种带可振动矩形翼的圆管管翅换热器                中国实用新型专利

    33. 一种新型CPU散热器                                    中国实用新型专利

    34. 半自动土壤取样收集装置                               中国实用新型专利

    35. 一种带丁胞的三头扭曲强化换热管                     中国实用新型专利

    36. 一种加凹槽枕板式换热器                               中国实用新型专利

    37. 一种带振动尾翼涡产生器的圆管管翅换热器           中国实用新型专利


团队成员

  • 张强 副教授、博士

    张昆 教授、博士

    武祥 副教授

科研项目

  • 国家自然科学基金       3项

    甘肃省杰出青年基金      1项

    甘肃省教育厅协同创新项目  1项

    陇原青年创新人才扶持计划  1项

    甘肃省自然科学基金     2项

    百名青年人才扶持计划     1项




获奖及荣誉

  • 科研奖励:

    2011年甘肃省自然科学一等奖;

    2017年甘肃省科技进步一等奖; 

    个人荣誉:

    2014年,获甘肃省杰出青年基金;

    2016年,获甘肃省“飞天学者”青年学者;

    2017年,获甘肃省青年教师成才奖;

    2021年,获甘肃省优秀学位论文指导教师;

    2016年,入选“陇原青年创新人才扶持计划”;

    2017年,入选兰州交通大学“百名青年优秀人才扶持计划”;

    2018-2020学年,兰州交通大学优秀研究生指导教师;

    2009-2010年度,兰州交通大学科研先进个人;

    2013-2014年度,兰州交通大学科研先进个人;

    2017-2018年度,兰州交通大学科研先进个人;

    2019-2020年度,兰州交通大学科研先进个人;