屈健-江苏大学能源与动力工程学院

 

屈 健

出生年月

http://zqglmain.ujs.edu.cn:8080/_vsl/20E3763E16E515976E5C36751F3F6D75/C1F81EFC/B1C2?e=.jpg

 

副教授

任职年月

2010.07

党政职务

系主任

所在学科

工程热物理

技术职务

副教授

博导/硕导

博导/硕导

最高学位

博士

学术任职

1.国家自然科学基金评审专家

2.ASME J. Heat TransferInt. J. Heat & Mass TransferInt. J. Thermal SciencesInt. Comm. Heat Mass TransferHeat Transfer EngineeringJ. Micromechanics & MicroengineeringApplied Energy EnergyExperimental Thermal & Fluid ScienceApplied Thermal EngineeringHeat and Mass TransferChemical Engineering Journal、化工学报、化工进展中国机械工程学报等国内外学术期刊的论文审稿人

联系方式

Email:rjqu@ujs.edu.cn

主讲课程

1.传热学

2.传热传质理论及应用(双语)

3.Heat Transfer Enhancement and Applications (留学生)

研究领域

1.微纳尺度流动与传热;

2.微电子/光电器件高效冷却及系统热管理;

3.纳米流体光热转化及太阳能光热发电技术

在研项目

近年来主持的项目主要包括:

1.国家自然科学基金项目(No.51576091),2016-2019

2.中国博士后科学基金特别资助(第8批)(No.2015T80523),2015-2017

3.国家自然科学(青年)基金(No.51206065),2013-2015

4.江苏省自然科学青年基金(No.BK2012291)2012-2015

5.中国博士后科学基金面上项目(第54批)(No.2013M540419),2014-2015

主要论著

Journal Papers:

* R Zhang, J Qu, M Tian, X Han, Q   Wang. Efficiency improvement of a solar direct volumetric receiver utilizing   aqueous suspensions of CuO. International Journal of Energy Research, 2018,   DOI: 10.1002/er.4028.

* J Qu, C Wang, X Li, H Wang. Heat   transfer performance of flexible oscillating heat pipes for   electric/hybrid-electric vehicle battery thermal management. Applied Thermal   Engineering, 2018, 135: 1-9.

*Q Sun, J Qu, J Yuan, H Wang. Start-up   characteristics of MEMS-based micro oscillating heat pipe with and without   bubble nucleation. International Journal of Heat and Mass Transfer, 2018,   122: 515-528.

*J Qu, M Tian, X Han, R Zhang, Q   Wang. Photo-thermal conversion characteristics of MWCNT-H2O   nanofluids for direct solar thermal energy absorption applications. Applied   Thermal Engineering, 2017, 124: 486-493.

*X Han, Y Guo, Q Wang, J Qu, P Phelan.   Investigations of III–V concentrator solar cells with liquid immersion for   high concentrating photovoltaic systems. Solar Energy, 2017, 158: 728-736.

*Q Sun, J Qu, Q Wang, J Yuan.   Operational characteristics of oscillating heat pipes under micro-gravity   condition. International Communications in Heat &Mass Transfer, 2017, 88:   28-36.

*Q Sun, J Qu, J Yuan, Q Wang.   Operational characteristics of an MEMS-based micro oscillating heat pipe.   Applied Thermal Engineering, 2017, 124: 1269-1278.

*J Qu, X Li, Qxu, Qian Wang.   Thermal performance comparison of oscillating heat pipes with and without   helical micro-grooves. Heat Mass Transfer, 2017, 53 (11): 3383-3390.

* J Qu, H Wu, P Cheng, Q Wang, Q   Sun. Recent advances in MEMS-based micro heat pipes.International Journal of   Heat & Mass Transfer, 2017, 110: 294-313.

* J Qu, X Li, Q Wang, et al. Heat   transfer characteristics of micro-grooved oscillating heat pipes.   Experimental Thermal & Fluid Science, 2017, 85:75-84.

* Q Sun, J Qu, X Li, et al.   Experimental investigation of thermo-hydrodynamic behavior in a closed loop   oscillating heat pipe. Experimental Thermal & Fluid Science, 2017, 82:   450-458.

* J Qu, X Li, Y Cui, et al.   Design and experimental study on a hybrid flexible oscillating heat   pipe.International Journal of Heat & Mass Transfer, 2017, 107: 640-645.

* J Qu, Q Wang, Q Sun. Lower   limit of internal diameter for oscillating heat pipes: a theoretical   model.International Journal of Thermal Sciences, 2016, 110: 174-185.

*X Han, Q Wang, J Zheng, J Qu. Thermal   analysis of direct liquid-immersed solar receiver for high concentrating   photovoltaic system. International Journal of Photoenergy, 2015, article ID   321350.

* J Qu, Q Wang, C Li, et al. A   simple model for Taylor flow induced contact angle hysteresis and capillary   pressure inside mini/micro-scale capillary tubes. International Journal of   Heat & Mass Transfer, 2014, 78: 1004–1007.

* J Qu, Q Wang. Experimental   study on the thermal performance of vertical closed-loop oscillating heat   pipes and correlation modeling. Applied Energy, 2013, 112:1154-1160.

* J Qu, H Wu, P Cheng. Start-up,   Heat Transfer and Flow Characteristics of Silicon-based Micro Pulsating Heat   Pipes.International Journal of Heat & Mass Transfer, 2012, 55(21-22): 6109–6120.

* J Qu, H Wu, Q Wang.   Experimental Investigation of Silicon-Based Micro-Pulsating Heat Pipe for   Cooling Electronics. Nanoscale & Microscale Thermophysics Engineering,   2012, 16 (1): 37-49.

* J Qu, H Wu.Thermal performance   comparison of oscillating heat pipes with SiO2/water and Al2O3/water   nanofluids. International Journal of Thermal Sciences,2011,50(10):1954-1962.

* J Qu, H Wu. Flow Visualization   of Silicon-Based Micro Pulsating Heat Pipes. Science in China Series E:   Technological Sciences, 2010, 53 (4): 984-990.

* J Qu, H Wu, P Cheng.Thermal   performance of an oscillating heat pipe with Al2O3–water nanofluids.   International Communications in Heat & Mass Transfer, 2010, 37 (2):   1111-1115.

* J Qu, H Wu, P Cheng, et al.   Non-linear analyses of temperature oscillations in a closed-loop pulsating   heat pipe. International Journal of Heat & Mass Transfer, 2009, 52   (15-16): 3481-3489.

* J Qu, H Wu, P Cheng. Effects of   functional surface on performance of a micro heat pipe. International   Communications in Heat & Mass Transfer, 2008, 35 (5): 523-528.

* H Wu, X Wu, J Qu. Condensation   heat transfer and flow friction in silicon microchannels. Journal of   Micromechanics & Microengineering, 2008, 18 (11): 115024.

* 杨舒生, , 杨学贵. 液滴撞击超疏水碳纳米管阵列表面的行为研究. 工程热物理学报,   2018 (录用)

*屈健, 张若梅,   田敏. 氧化铜-碳纳米管/水混合纳米流体的光热性能. 化工进展, 2018 (录用)

* 孙芹,屈健,袁建平.等截面和变截面通道硅基微型脉动热管传热特性比较. 化工学报, 2017, 68 (5):1803-1810.(封面文章)

* 屈健,田敏,王谦,韩新月.碳纳米管-水纳米流体的光热转化特性.   化工学报, 201667: 113-119.

* 李孝军, 屈健, 韩新月等. 微槽道脉动热管的启动及传热特性. 化工学报, 2016, 67(6): 2263-2270.

* 屈健,孙芹,王谦.考虑接触角滞后的脉动热管工质运动特性研究.工程热物理学报,2015,369):1990-1994.

* 屈健,王谦,何志霞等. 矩形微通道内液滴产生和运动特性实验研究. 上海交通大学学报, 2015, 49 (01): 86-90.

*  韩新月,屈健, 郭永杰. 温度和光强对聚光硅太阳电池特性的影响研究.太阳能学报,2015,36(7):1585-1590.

* 屈健, 王谦, 韩新月等. 大深宽比双T型微通道内液-液两相流可视化研究.化工进展, 2014, 33 (10): 2583-2587.

* 屈健. 脉动热管技术研究及应用进展.化工进展, 2013,32 (1): 33-41.

* 屈健, 吴慧英. /FC-72 纳米乳液振荡热管传热特性研究. 高校化学工程学报, 2012, 262: 210-215.

* 屈健, 吴慧英. 微型硅基振荡热管传热特性. 化工学报, 201162   (11): 3046-3052.

* 屈健, 吴慧英, 郑平. 硅基微型振荡热管的流动可视化实验研究. 中国科学: 技术科学,   2010, 40 (5): 575-581.

* 屈健, 吴慧英, 唐慧敏. 微小型振荡热管的流动可视化实验. 航空动力学报, 2009, 24 (4): 766-771.

* 吴信宇, 吴慧英, 屈健等. 纳米流体在芯片微通道中的流动与换热特性. 化工学报, 2008, 59 (9): 2181-2187.

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Conference Proceedings

* J Qu, X Li, Q Wang, et al.   Thermal performance comparison of closed-loop oscillating heat pipes with and   without internal microgrooves.Joint 18th IHPC and 12th IHPS, Jeju, Korea,   June 12-16, 2016.

* J Qu, Q Wang. THERMAL   PERFORMANCE OF A VERTICAL CLOSED-LOOP OSCILLATING HEAT PIPE AND A PROPOSED   CORRELATION.4th International Conference on Applied Energy, Jul 5-8, 2012,   Suzhou, China.

* J Qu, H Wu. Silicon-Based Micro   Pulsating Heat Pipe for Cooling Electronics. The 2010 6th International   Conference on MEMS NANO, and Smart Systems,Dec.14-15, 2010,Changsha, China.

* J Qu, H Wu, P Cheng.   Experimental study on the thermal performance of a silicon-based   micro-pulsating heat pipe. ASME 2009 2nd Micro/Nanoscale Heat & Mass   Transfer International Conference, Dec. 18-22, 2009, Shanghai, China.

专著:

Jian Qu, Qian Wang. MEMS-Based   Micro-heat Pipes, Chapter 5 in "Electronics Cooling"(Editor: S M   Sohel Murshed)ISBN978-953-51-4672-8,   InTech press, 2016.

获奖情况

1. 柴油机燃油喷射与燃烧系统关键技术研究及应用,江苏省科技进步二等奖(排名5),2013

2. 江苏大学“青年骨干教师工程”青年学术带头人培育对象,2014-2017.

3. 2012-2015年江苏大学“优秀学业导师”

发明专利

1. 具有功能表面的微型热管阵列芯片的制备方法,中国发明专利,专利号:ZL200710043439.2

2. 集成脉动芯片热管及其制备方法,中国发明专利,专利号:ZL200810036572.X

3. 一种纳米乳液脉动热管的制造方法,中国发明专利,专利号:ZL201110285165.4

4. 一种具有功能通道结构的硅基微型脉动热管,中国发明专利,专利号: ZL201410025799.X

5. 一种无源驱动的微通道散热冷却装置,中国发明专利,申请号:201310222822. X

 

每年招收工程热物理、新能源、热能工程等相关专业博士研究生1名,硕士研究生2-3名,欢迎报考。