闫宏斌 博士研究生
单位: 西安交通大学轻质结构与材料多学科研究中心
地址: 陕西省西安市咸宁西路28号(邮编710049)
E-mail: hongbinyanhb@163.com
◆教育经历
2012.9至今2015: 西安交通大学能源与动力工程学院,动力工程及工程热物理专业,工学博士在读
(2013.3至2013.8于南非金山大学机械工程学院访问交流)
2011.9至2012.7: 西安交通大学航天航空学院,固体力学专业,工学硕士
2007.9至2011.7: 西安交通大学能源与动力工程学院,能源动力系统及自动化专业,工学学士
◆研究方向
多功能点阵芯体静式热沉的对流传热特性研究。采用实验及CFD&CHT方法认识点阵芯体三明治热沉内复杂的大分离流动及局部传热特性以深入揭示传热机理,在此基础上进行一系列优化设计以进一步强化传热、降低热沉基板温度。
多功能点阵芯体旋转式热沉的流动传热特性研究。利用旋转实验台并结合CFD&CHT方法对新概念点阵芯体通风制动盘转动所致的复杂内流及外流进行深入认识,揭示流动现象在制动盘冷却中的作用,在此指导下进行优化设计。与商用通风制动盘相比,所提出的新概念通风制动盘具有更加优越的散热性能,对改善盘式制动器的制动性能及舒适性具有重要意义。
◆科研成果
[1] H.B.
Yan, Q.C. Zhang, T.J. Lu, T. Kim, A lightweight X-type metallic lattice in
single-phase forced convection, Int. J. Heat Mass
Transfer 83 (2015) 273–283.
[2] H.B.
Yan, Q.C. Zhang, T.J. Lu, An X-type lattice cored ventilated brake disc with
enhanced cooling performance, Int. J. Heat Mass
Transfer 80 (2015) 458–468.
[3] H.B.
Yan, T. Mew, M.-G. Lee, K.-J. Kang, T.J. Lu, F.W. kienhöfer, T. Kim,
Thermofluidic characteristics of a porous ventilated brake disk, ASME J. Heat Transfer 137 (2) (2015)
022601-1–022601-11.
[4] X.L.
Wang, H.B. Yan, T.J. Lu, S.J. Song, T. Kim, Heat transfer
characteristics of an inclined impinging jet on a curved surface in crossflow,
ASME J. Heat Transfer 136 (8) (2014) 081702-1–081702-10.
[5] X.H.
Yang, J.X. Bai, H.B. Yan, J.J. Kuang, T.J. Lu, T. Kim, An analytical unit cell
model for the effective thermal conductivity of high porosity open-cell metal
foams, Transp. Porous Med. 102 (3) (2014)
403–426.
◆毕业去向
格力空调中央研究院,工程师
Hongbin
Yan, Ph.D.
Candidate
Multidisciplinary
Research Center for Lightweight Structures and Materials
Xi'an
Jiaotong University
No.
28 Xianning West Road, Xi'an 710049, P.R. China
E-mail: hongbinyanhb@163.com
◆Education
9/2012–present: Ph.D. Candidate
Department of Thermo-Fluid Science and
Engineering
School of Energy and Power Engineering, Xi'an
Jiaotong University
(3/2013–8/2013: as a visiting student in School of Mechanical, Industrial and
Aeronautical Engineering,
University of the Witwatersrand)
9/2011–7/2012: M.Sc. Candidate
Department
of Solid Mechanics, School of Aerospace, Xi'an Jiaotong University
9/2007–7/2011: B.Eng. Candidate
Department of Thermal
Engineering, School of Energy and Power Engineering
Xi'an Jiaotong University
◆Research
Interests
Thermo-fluidic
physics and heat transfer enhancement in stationary/rotating multifunctional
heat sinks by lightweight metallic lattice cores. Novel metallic lattices
(e.g., X-type lattice) developed by the research group are integrated into
stationary/rotating heat sinks (e.g., sandwich panels and ventilated brake
discs). Insights into the complex internal/external flows and local heat
transfer patterns are realized by both experiments (e.g., infrared thermography
and oil-dye mixture/helium bubble flow visualization) and three-dimensional numerical
simulations. Based on the understanding of heat transfer mechanisms, optimization
follows to further improve thermal performance of the heat sinks. The proposed
heat sinks perform better than existing ones, acting as promising candidates
for thermal protection systems.
◆Scientific
Achievements
[1] H.B.
Yan, Q.C. Zhang, T.J. Lu, T. Kim, A lightweight X-type metallic lattice in
single-phase forced convection, Int. J. Heat Mass Transfer
83 (2015) 273–283.
[2] H.B.
Yan, Q.C. Zhang, T.J. Lu, An X-type lattice cored ventilated brake disc with
enhanced cooling performance, Int. J. Heat Mass
Transfer 80 (2015) 458–468.
[3] H.B.
Yan, T. Mew, M.-G. Lee, K.-J. Kang, T.J. Lu, F.W. kienhöfer, T. Kim,
Thermofluidic characteristics of a porous ventilated brake disk, ASME J. Heat Transfer 137 (2) (2015)
022601-1–022601-11.
[4] X.L.
Wang, H.B. Yan, T.J. Lu, S.J. Song, T. Kim, Heat transfer characteristics of an
inclined impinging jet on a curved surface in crossflow, ASME J. Heat Transfer 136 (8) (2014)
081702-1–081702-10.
[5] X.H.
Yang, J.X. Bai, H.B. Yan, J.J. Kuang, T.J. Lu, T. Kim, An analytical unit cell
model for the effective thermal conductivity of high porosity open-cell metal
foams, Transp. Porous Med. 102 (3) (2014)
403–426.
