谢公南


的个人主页 http://teacher.nwpu.edu.cn/Conan

基本信息 The basic information

谢公南

航海学院

博士研究生毕业

博士

教授

船舶与海洋工程-船舶与海洋结构物设计制造,航空宇航科学-航空宇航制造工程,动力工程及工程热物理-热能工程

xgn@nwpu.edu.cn

029-88492611

工作经历 Work Experience

2016.08--2017.08, University of Minnesota(美国),机械工程系,访问学者

2015.06 -  至今,西北工业大学,航海学院,教授,博导/硕导

2014.05-2015.05,西北工业大学,机电学院,教授,博导/硕导

2009.12-2014.04,西北工业大学,机电学院,副教授,硕导

2008.01-2009.10Lund University(瑞典,能源科学系,博士后


教育经历 Education Experience

2002.09-2007.12,西安交通大学,能源与动力工程学院,博士(动力工程及工程热物理)

1998.09-2002.06,广东海洋大学,工程学院,学士(热能与动力工程


教育教学 Education And Teaching

本科生课程:

    热力学与气体动力学基础》、《流体力学与热力学基础》、

     《传热传质与换热原理》、《Introduction to Heat Transfer

研究生课程:《热力耦合分析基础》、《数值传热学及工程应用》

            Heat Tranfer and Analysis


科学研究 Scientific Research

1.主要研究方向

  (1) 航空/航天/航海结构热分析与热控制、减阻与降耗;

  (2) 新能源与动力推进技术、新型高效换热技术与装备;

  (3) 宏/微/纳观流动换热、-力耦合与结构优化设计。

     

     

研究对象:飞行器、航行器、换热器、燃气涡轮、燃料电池、




          热防护系统、微电子芯片、多孔介质等。





涉及知识:流体力学、气动力学、热力学、传热学、材料力学、



         

         

          计算流体力学、数值传热学、工程优化、并行计算等。




2.学术论文成果(截止2018年5)

  以第一/通讯作者,发表SCI收录论文80篇,H因子为22

  以第一/通讯作者,发表EI收录论文10篇(不含SCI&EI双检)

  以第一/通讯作者,发表ASME会议论文26篇(EI&ISTP双检);

  7 篇论文曾入选ESI高被引论文(其中3篇为第一作者、1篇为通讯作者)。


招生信息 Admission Information

博士生招生专业【机电学院】航空宇航制造工程(082503)

硕士生招生专业:【航海学院】兵器科学与技术(082600),船舶与海洋结构物设计制造(082401)

                            船舶与海洋工程(085223)

                【机电学院】航空宇航制造工程(082503),航空工程(085232) 

    @@以每年公布的招生目录为准@@ ==> 招生办网页:http://yzb.nwpu.edu.cn


***至2018年5月,已指导毕业硕士13人(其中1人为留学生),毕业博士0人***

团队信息 Team Information

1. 小组人员情况(截止2018年5月)

     教师2人(1-教授,1-助理教授)

     在读研究生20人(11-博士生;8-硕士生;1-留学博士生

 

2. 学生荣誉与获奖(截止2018年5月)

     *** 研究生国家奖学金 21 人次,宝钢优秀奖2人次,研究生三好标兵2人次

     *** 校科技英才2人次,蒋震奖学金1人次,学术之星1人

     *** 优秀硕士学位论文4,优秀毕业研究生3人,优秀本科毕设论文3


(西北工业大学优秀硕士学位论文:2015,刘建,典型传热结构强化传热与减阻的流动控制研究;2015,郑少飞,航空发动机涡轮叶片内冷结构热力耦合分析及其性能改进;2016,吉庭武,先进飞行器半主动/主动冷却结构热力分析与优化设计;2017,宋乙丹,涡轮叶片内冷通道的流动传热特性分析及优化设计)

3. 国际交流与合作(截止2018年9月)

     ==> 学生短期出国学习交流3人(瑞典隆德大学1人、美国明尼苏达大学2人)

     ==> 学生在国外大学攻读博士学位3(瑞典的隆德大学2人,导师Bengt Sunden教授;德国的弗赖贝格工业大学1人,导师Ulrich Gross教授)

     

     ==> 学生在国外大学博士生联合培养3人(美国的加州大学伯克利分校,导师Costas Grigoropoulos教授; 美国的明尼苏达大学,导师Terrence Simon教授;瑞典的隆德大学,导师Bengt Sunden教授)

    

     ==> 邀请国际知名教授到校来访,年均2人次

     ==> 与众多境外大学知名教授保持着稳定的学术交流合作关系


4. 研究生毕业去向情况(截止2018年5月)

     3人海外读博士:(瑞典)隆德大学-2人;(德国)弗莱贝格工业大学-1人。

     9人国内就业:中国空气动力研究与发展中心、中国工程物理研究院总体工程研究所、中国工程物理研究院化工材料研究所、中国船舶重工集团公司第七二三研究所、中国电子科技集团第十八研究所、中航工业第一飞机设计研究院、中国兵器工业试验测试研究院、中国燃气涡轮研究院。


社会兼职 Social Appointments

1.国际学术期刊

   ASME Journal of Heat Transfer》 副主编(2014-)、《International Journal of Thermal Sciences》 副主编(2018-)、《International Journal of Energy Research》 编委(2018-)

   《Journal of Porous Media》副主编(2015-)、《ASME Journal of Electronic Packaging》客座副主编(2013-2015)。


2.国际机构组织

  国际传热传质中心(ICHMT)理事会成员ASME K-14 燃气透平传热委员会委员、ASME K-9 微纳传热委员会委员、瑞典隆德大学能源科学系客座教授


3.国内学术期刊

   《航空动力学报》 编委、《哈尔滨工程大学学报》 编委、《应用数学和力学》 编委


4.国内机构组织

   国家自然科学基金通讯评议专家、教育部留学回国人员科研启动评审专家、教育部学位论文通讯评议专家



学术成果 Academic Achievements

截止至2017年12月25日

第一/通讯作者的International Journal of Heat and Mass Transfer期刊论文

1. Film cooling performance and flow characteristics of internal cooling channels with continuous/truncated ribs.

2. Turbulent flow characteristics and heat transfer enhancement in a square channel with various crescent ribs on one wall.

3. Forced convection and heat transfer of water-cooled microchannel heat sinks with various structured metal foams.

4. Parametric study on thermal performance of microchannel heat sinks with internal vertical Y-shaped bifurcations.

5. Turbulent flow and heat transfer enhancement in rectangular channels with novel cylindrical grooves.

6. Flow structure and heat transfer in a square passage with offset mid-truncated ribs.

7. A review of heat transfer and pressure drop characteristics of single and two-phase microchannels.

8. Numerical analysis of flow structure and heat transfer characteristics in square channels with different internal-protruded dimple geometrics.

9. Numerical predictions of augmented heat transfer of an internal blade tip-wall by hemispherical dimples.

10. Performance predictions of laminar and turbulent heat transfer and fluid flow of heat exchangers having large tube-diameter and large tube-row by artificial neural networks.

第一/通讯作者的ASME Journal of Heat Transfer期刊论文

1. Experimental Investigation on Heat Transfer Performance of a Flat Plate Heat Pipe With MWCNTS-Acetone Nanofluid.

2. Optimization of Pin-Fins for a Heat Exchanger by Entropy Generation Minimization and Constructal Law.

3. Numerical Prediction of Turbulent Flow and Heat Transfer Enhancement in a Square Passage With Various Truncated Ribs on One Wall.

4. Comparisons of Pins/Dimples/Protrusions Cooling Concepts for a Turbine Blade Tip-Wall at High Reynolds Numbers.

5. Computational Analysis of Pin-Fin Arrays Effects on Internal Heat Transfer Enhancement of a Blade Tip Wall.

第一/通讯作者的Numerical Heat Transfer期刊论文

1. Turbulent flow characteristics and heat transfer enhancement in a rectangular channel with elliptical cylinders and protrusions of various heights.

2. Computational optimization of the internal cooling passages of a guide vane by a gradient-based algorithm.

3. Analysis of micro-channel heat sinks with rectangular-shaped flow obstructions.

4. Numerical analysis of constructal water-cooled microchannel heat sinks with multiple bifurcations in the entrance region.

5. Constructal parallel-flow and counterflow microchannel heat sinks with bifurcations.

6. Heat transfer and flow characteristics in rib-/deflector-roughened cooling channels with various configuration parameters.

7. On the improvement of the poor heat transfer lee-side regions of square cross-section ribbed channels.

8. Numerical prediction of flow structure and heat transfer in square channels with dimples combined with secondary half-size dimples/protrusions.

9. A numerical study of the thermal performance of microchannel heat sinks with multiple length bifurcation in laminar liquid flow.

10. Numerical predictions of heat transfer and flow structure in a square cross-section channel with various non-spherical indentation dimples.

11. Numerical predictions of the flow and thermal performance of water-cooled single-layer and double-layer wavy microchannel heat sinks.

12. Numerical analysis of flow and thermal performance of liquid-cooling microchannel heat sinks with bifurcation.

13. Comparative study of the flow and thermal performance of liquid-cooling parallel-flow and counter-flow double-layer wavy microchannel heat sinks.

14. Enhanced internal heat transfer on the tip-wall in a rectangular two-pass channel (AR=1:2) by pin-fin arrays.

第一/通讯作者的Applied Thermal Engineering期刊论文

1. Convective heat transfer in a lightweight multifunctional sandwich panel with X-type metallic lattice core.

2. Computational optimization of counter-flow double-layered microchannel heat sinks subjected to thermal resistance and pumping power.

3. Investigation on thermal and thermomechanical performances of actively cooled corrugated sandwich structures.

4. Constructal wavy-fin channels of a compact heat exchanger with heat transfer rate maximization and pressure losses minimization.

5. Constructal design and thermal analysis of microchannel heat sinks with multistage bifurcations in single-phase liquid flow.

6. Laminar thermal performance of microchannel heat sinks with constructal vertical Y-shaped bifurcation plates.

7. Investigation on thermal performance of high temperature multilayer insulations for hypersonic vehicles under aerodynamic heating condition.

8. Economic optimization design of shell-and-tube heat exchangers by a cuckoo-search-algorithm.

9. A numerical study of flow structure and heat transfer in a square channel with ribs combined downstream half-size or same-size ribs.

10. Thermomechanical optimization of lightweight thermal protection system under aerodynamic heating.

11. Parametric study and multiple correlations on air-side heat transfer and friction characteristics of fin-and-tube heat exchangers with large number of large-diameter tube rows.

12. Optimization of compact heat exchangers by a genetic algorithm.

13.  Heat transfer analysis for shell-and-tube heat exchangers with experimental data by artificial neural networks approach.