徐丰

基本情况

姓  名:

徐丰

职  务:

职  称:

教授

学  历:

研究生

学  位:

博士

通信地址:

北京市海淀区上园村3号北京交通大学土建学院

邮  编:

fxu@bjtu.edu.cn

办公电话:

51685662

电子邮箱:

fxu@bjtu.edu.cn

教育背景

博士,环境工程,澳大利亚詹姆斯库克大学
硕士,流体力学,中国科学院力学研究所
学士,海洋科学,中国海洋大学

工作经历

1987年起,先后在中国和澳大利亚的多家国际一流学术机构(如悉尼大学和中国科学院力学研究所等)任职,从事有关环境及能源利用中的流动等国际前沿性学术研究工作。此外,曾以访问学者的身份,学术访问过多家国际知名大学,且至今保持着实质性的国际学术合作。

2011.08 教授(博士生导师),北京交通大学土建学院力学系

2009.082011.07 Research Fellow, 澳大利亚悉尼大学土木工程学院

2006.102009.07 Research Associate, 澳大利亚詹姆斯库克大学工学院

1987.082003.08 研究实习员,助理研究员以及副研究员,中国科学院力学研究所 


研究方向

  • 复杂流动、传热和传质
  • 建筑与土木工程(专业学位)

招生专业

  • 力学博士
  • 力学硕士
  • 建筑与土木工程硕士

科研项目

主持或参加了超过十项中国和澳大利亚国家级项目以及多项知名企业的科研课题,国家级项目节选如下:
11. 阁楼空间内流动和传热的机理,国家自然科学基金(面上),2016-2019
10. 耦合热边界层的流动和传热,国家自然科学基金(面上),2013-2016
9. 翅片绕流和传热, 国家自然科学基金(主任), 2012
8. 热边界层的不稳定性, 澳大利亚国家基金, 2006-2011
7. 粗糙垂直壁的湍流和传热, 澳大利亚国家基金, 2003-2006
6. 风生破碎波微结构研究及微波散射新模式的改进, 国家自然科学基金(面上), 1997-1999, 面上
5. 海气微相互作用, 国家自然科学基金(重点), 1994-1997
4. 风生破碎波与短波谱研究及微波风场遥感, 国家自然科学基金(面上), 1993-1995
3. 区域尺度水分气候学模式研究, 国家自然科学基金(面上), 1991-1993
2. 太湖入湖河口污染物稀释自净规律研究, “七五”攻关, 1988-1990 
1. 以吴江县为典型的小城镇水污染控制研究, “七五”攻关, 1987-1990

教学工作

本科生课程:流体力学;流体动力学;粘性流体力学

研究生课程:量纲分析及尺度分析;粘性流体力学

 

本科生及研究生培养:

博士研究生--

2018: 姜雨含

2017: 宋畅, 翟浩宇

2016: 王兴宇

2014: Sidhartha Bhowmick(大学), 乔曼曼

2013: 马佳(中科院), 王林伟(中科院)

2012: 崔会敏(大学)

硕士研究生--

2018: 张伟(转博), 邵禹韬

2017: 姜雨含(转博)

2016: 胡阳, 刘念

2015: 王兴宇(转博), 翟浩宇(转博)

2014: 葛菲(小学), 侯育栋(留校), 任春光(国家电网)

2013: 孟波(中国航天一院), 乔曼曼(转博)

2012: 张勋(留校), 薛宇轩(中国航天一院)

2011: 马佳(转博)

本科--

2015: 齐依(保研)

2014: 张伟(保研)

2013: 姜雨含(保研)

欢迎对能源利用、绿色建筑、城市雾霾、大气及海洋环境、冰川融化以及基础流体力学等研究感兴趣的学生来报读硕士、博士或博士后。特别提醒想读博士或博士后的学生,学习工作期间将能获得与国外一流大学同样的研究指导以及直接的国外合作大学的留学机会。 

论文/期刊

近期第一作者发表的期刊论文节选如下: 

  1. Nie, B. and Xu, F. (2019). Scales of natural convection on a convectively heated vertical wall, Phys. Fluids, (accepted).
  2. Bhowmick, S., Saha, S, Qiao, M. and Xu, F. (2019). Transition to a chaotic flow in a V-shaped enclosure heated from below, Int. J. Heat Mass Transfer, 128, 76-86.
  3. Qiao, M., Tian, Z., Nie, B. and Xu, F. (2018). The route to chaos for plumes from an open cylindrical cavity heated from underneath, Phys. Fluids, 30, 124102.
  4. Wang, X., Xu, F. and Zhai, H. (2018). An experimental study of a starting plume on a mountain, Int. Commun. Heat Mass Transfer, 97, 1-8.
  5. Qiao, M., Xu, F. and Saha, S. (2018). Numerical study of the transition to a chaotic plume on an open cavity heated below, Appl. Math. Model., 61, 577-592.
  6. Ma, J., Nie, B. and Xu, F. (2018). Pr >1 unsteady thermal flows and heat transfer in a finned cavity with a uniform heat flux, Int. J. Therm. Sci., 129, 83-93.
  7. Nie, B., Xu, F. and Ren, C. (2018). Transient intrusion flow in a section-triangular attic, Int. Commun. Heat Mass Transfer, 93, 11-20.
  8. Bhowmick, S., Xu, F. and Saha, S. (2018). Natural convection in stratified fluid in a triangular cavity, Int. J. Therm. Sci., 128, 59-69.
  9. Zhai, H., Xu, F. Hou, Y., and Saha, S. (2018). Natural convection and heat transfer on a section-triangular roof, Int. Commun. Heat Mass Transfer, 92, 23-30.
  10. Ma, J., Nie, B. and Xu, F. (2018). Transient flows on an evenly heated wall with a fin, Int. J. Heat Mass Transfer, 118, 235-246.
  11. Ma, J. and Xu, F. (2017). Flows and heat transfer in the transition to an unsteady state induced by a fin on the sidewall for different Prandtl number, Int. Commun. Heat Mass Transfer, 88, 220-227.
  12. Qiao, M., Xu, F. and Saha, S. (2017). Scaling analysis and numerical simulation of natural convection on a duct, Numer. Heat Transfer, 72(5), 355-371.
  13. Ma, J. and Xu, F. (2017). Dynamics and heat transfer of a Pr < 1 thermal flow around a fin on the thermal wall, Int. J. Heat Mass Transfer, 111, 696–708.
  14. Wang, L., Xu, S., Zhou, Z., Sun, Z. and Xu, F. (2017). Effect of void defects in crystalline structure on the shear moduli of charged colloidal crystals, Colloids and Surfaces A: Physicochem. Eng. Aspects, 516, 115-120.
  15. Wang, L., Xu S., Zhou H., Sun Z., Ouyang W., Xu F. (2017). Theoretical improvement on the determination of effective elasticity charges for charged colloidal particles, Acta Physica Sinica, 66(6), 066102.
  16. Cui, H., Xu, F. and Saha, S. (2017). Transition to unsteady natural convection flow in a prismatic enclosure of triangular section, Int. J. Therm. Sci., 111, 330-339.
  17. Ma, J. and Xu, F. (2016). Unsteady flows induced by a fin at different heights in a differentially heated cavity, Appl. Therm. Eng., 99, 625-634.
  18. Sojoudi, A., Saha, S., Xu, F. and Gu, Y. T. (2016). Transient air flow and heat transfer due to differential heating on inclined walls and heat source placed on the bottom wall in a partitioned attic shaped space, Energ. Buildings, 113, 39-50.
  19. Xu, F. (2015). Unsteady coupled thermal boundary layers induced by a fin in a partitioned cavity, Int. Commun. Heat Mass Transfer, 67, 59-65.
  20. Cui, H., Xu, F. and Saha, S. (2015). A three-dimensional simulation of transient natural convection in a triangular cavity, Int. J. Heat Mass Transfer, 85, 1012-1022.
  21. Qiao, M., Xu, F., (2015). Numerical simulation of a starting buoyant jet from a channel, Procedia Eng., 126, 592-596.
  22. Ma, J., Xu, F., (2015). Transient flows around a fin at different positions, Procedia Eng., 126, 393-398.
  23. Cui, H., Xu, F., (2015). Longitudinal and transverse rolls in a triangular cavity, Procedia Eng., 126, 362-366.
  24. Xu, F., Yang, Q., and Yu, P. (2014). Numerical studies of transition from steady to unsteady coupled thermal boundary layers, Int. J. Comp. Meth, 11, Suppl. 1. 1344002.
  25. 徐丰, 崔会敏(2014). 侧加热腔内的自然对流, 力学进展, 44, 201403.
  26. Xu, F. and Saha, S. (2014). Transition to unsteady flows and heat transfer in a differentially heated air-filled cavity with a fin on the sidewall, Int. J. Heat Mass Transfer, 71, 236-244.
  27. Xu, F. (2014). Convective instability of the vertical thermal boundary layer in a differentially heated cavity, Int. Commun. Heat Mass Transfer, 52, 8-14.
  28. Xu, F., Patterson, J. C. and Lei, C. (2014). An experimental study of the coupled thermal boundary layers adjacent to a partition in a differentially heated cavity, Exp. Therm. Fluid Sci., 54, 12-21.
  29. Xu, F., Patterson, J. C. and Lei, C. (2013). The effect of the fin length on the transition of the natural convection flows in a differentially heated cavity, Int. J. Therm. Sci., 70, 92-101.
  30. Zeng, M., Yu, P., Xu, F. and Wang, Q.W. (2013). Natural convection in triangular attics filled with porous medium heated from below, Numer. Heat Transfer Part A, 63, 735-754.
  31. Saha, S., Xu, F., and Molla, M. (2011). Scaling analysis of the unsteady natural convection boundary layer adjacent to an inclined plate for Pr > 1 following instantaneous heating, J. Heat Transfer, 133, 112501.
  32. Xu, F., Patterson, J. C. and Lei, C. (2011). Unsteady flow and heat transfer adjacent to the sidewall wall of a differentially heated cavity with a conducting and an adiabatic fin, Int. J. Heat Fluid Flow, 32, 680-687
  33. Xu, F., Patterson, J. C. and Lei, C. (2010). A Pr < 1 intrusion induced by a vertical heated wall, Phys. Rev. E, 82, 026318.
  34. Xu, F., Patterson, J. C. and Lei, C. (2010). An experiment study of the oscillations in a differentially heated cavity with and without a fin on the sidewall, Int. Commun. Heat Mass Transfer, 37, 350-359.
  35. Xu, F., Patterson, J. C. and Lei, C. (2009). Transient natural convection around a thin fin on the sidewall of a differentially heated cavity, J. Fluid Mech., 639, 261-290.
  36. Xu, F., Patterson, J. C. and Lei, C. (2009). Heat transfer through coupled thermal boundary layers induced by a suddenly generated temperature difference, Int. J. Heat Mass Transfer, 52, 4966-4975.
  37. Xu, F., Patterson, J. C. and Lei, C. (2009). Transition to a periodic flow induced by a thin fin on the sidewall of a differentially heated cavity, Int. J. Heat Mass Transfer, 52, 620-628.
  38. Xu, F., Patterson, J. C. and Lei, C. (2008). On the double-layer structure of the boundary layer adjacent to a sidewall of a differentially heated cavity, Int. J. Heat Mass Transfer, 51, 3803-3815.
  39. Xu, F., Patterson, J. C. and Lei, C. (2008). An experimental study of the unsteady thermal flow around a thin fin on a sidewall of a differentially heated cavity, Int. J. Heat Fluid Flow, 29, 1139-1153.
  40. Xu, F., Patterson, J. C. and Lei, C. (2007). The leading edge effect for a suddenly differentially heated cavity, ANZIAM J., 48, 790-805.
  41. Xu, F., Patterson, J. C. and Lei, C. (2007). Natural convection adjacent to a sidewall with multiple fins in a differentially heated cavity, ANZIAM J., 48, 806-819.
  42. Xu, F., Patterson, J. C. and Lei, C. (2007). Natural convection in a differentially heated cavity with a square obstruction on the sidewall, Aust. J. Mech. Eng., 4, 77-86.
  43. Xu, F., Patterson, J. C. and Lei, C. (2006). Observation and simulation of the double layer structure of the thermal boundary layer in a side-heated cavity, J. Flow Vis. Image Proc., 13, 287-297.
  44. Xu, F., Patterson, J. C. and Lei, C. (2006). Experimental observations of the thermal flow around a square obstruction on a vertical wall in a side-heated cavity, Exp. Fluids, 40, 364-371.
  45. Xu, F., Patterson, J. C. and Lei, C. (2005). Shadowgraph observations of the transition of the thermal boundary layer in a side-heated cavity, Exp. Fluids, 38, 770-779.

专著/译著

专利

软件著作权

获奖与荣誉

2007年,Dean's Award on excellent research team, James Cook University
1991年,中国科学院科技进步二等奖,项目名称:太湖入湖河口污染物稀释自净规律研究
1990年,中国科学院科技进步三等奖,项目名称:以吴江县为典型的小城镇水污染控制研究  

社会兼职

中国力学学会环境力学专业委员会委员

中国力学学会流体力学专业委员会实验流体力学专业组委员

中国力学学会对外合作交流委员会委员

结构风工程与城市风环境北京市重点实验室学术委员会委员

《Theoretical and Applied Mechanics Letter》编委会常务编委

财政部,科技部和国家留学基金委项目评标和评审专家

澳大利亚国家科学基金的国际评审专家,国家自然科学基金委项目评审专家