姓名 屈健

个人简历

出生年月：1980.03

任职年月：2010.07

职称： 教授

党政职务：

技术职务：

所在学科：工程热物理

导师：博导/硕导

最高学位：博士/上海交通大学

学术任职：

1. 国家自然科学基金评审专家，教育部学位论文评审专家，江苏省高新技术企业评审专家

2. Int. J. Heat & Mass Transfer、Int. J. Thermal Sciences、Int. Comm. Heat Mass Transfer、Appl. Energy、Energy、Appl. Therm. Eng.、Solar Materials & Solar Cells、Solar Energy、Energy Conversion & Management、Int. J. Energy Research、Renewable & Sustainable Energy Reviews、Applied Surface Science、J. Colloid & Interface Science、Physics of Fluids、Langmuir、Chemical Engineering J.、Sustainable Cities & Society、化工学报、化工进展、工程热物理学报等国内外学术期刊的论文审稿人

研究领域

1.微/纳尺度流动与相变传热

2.微电子/半导体器件高效冷却，人形机器人和飞行器热管理

3.节能低碳技术

科研项目

主持国家/省部级项目和企业委托项目20余项（其中国家自然科学基金3项），在研项目包括：

1.国家自然科学基金面上项目（5227060821），2023-2026

2.具有多蒸发器回路型两相传热装置空间结构布局优化设计和实验研究，企业委托，2025-2028

3.基于拓扑优化方法的半导体功率器件水冷板翅结构设计研究，企业委托项目，2025

4.脉动热管结合结构拓扑优化和AI算法的工程应用，企业委托，2023-2026

5.回收工业循环水余热的高压CO₂发电系统动力罐设计模拟及测试研究，企业委托项目，2023-2024

主要论文

在International Journal of Heat and Mass Transfer，International Journal of Thermal Sciences，International Communications in Heat and Mass Transfer，Applied Thermal Engineering， Energy Conversion and Management，Applied Surface Science，Solar Energy Materials and Solar Cells，Renewable Energy，Journal of Molecular Liquids，Journal of Energy Storage，Physics of Fluids，Langmuir，Nano Energy，Nano Letter、中国科学、工程热物理学报和化工学报等国内外期刊发表学术论文90余篇。

2021年以来发表的主要论文

Z. Li, J. Qu, G. Zhou, R. Dai, Q. Sun. Performance characteristics of a novel topology-optimized oscillating heat pipe heat spreader for cooling multi-heat source electronics/power electronics. International Journal of Heat and Mass Transfer 256 (2026) 128104.

Q. Sun, X. Li, J. Qu, Inverse Marangoni-driven thermal enhancement in micro-grooved oscillating heat pipes using self-rewetting fluids. International Journal of Heat and Mass Transfer 255 (2026) 127728.

S. Gao, J. Qu, G. Zhou, D. Wang, M. An, Z. Liu, W. Ma, X. Zhang, Highly Efficient Jumping-Droplet Condensation via Full Lifecycle Droplet Rectifications. Nano Letter 25 (2025) 9755-9762.

J. Qu, Z. Wang, X. Wu, T. Zhang, R. Wang, Theoretical model for droplet self-motion in hydrophilic and hydrophobic microchannels with wettability gradient surfaces. Physics of Fluids 37 (2025) 052007.

Z. Li, G. Zhou, C. Zhang, X. Liu, P. Cheng, J. Qu. Performance evaluation of 3D multi-layer flat-plate oscillating heat pipe under hypergravity conditions with artificially gravity-assisted and anti-gravity operation. International Journal of Thermal Sciences 217 (2025) 110073.

J. Qu, G. Zhou, Z. Kang, Theoretical model for alternate-channel induced capillary pressure difference in flat-plate oscillating heat pipes. International Communications in Heat and Mass Transfer 162 (2025) 108683.

J. Qu, Y. Zhao, Y. Hua, W. Yang, S. Gao, Comparative study of operational characteristics for two-phase loop thermosyphons with and without pump assistant: Heat transfer performance and high-speed visualization observation. Applied Thermal Engineering 271 (2025) 126382.

G. Zhou, J. Qu, Z. Li, Q. Sun, S. Gao, Z. Kang, P. Cheng, Next generation flat-plate oscillating heat pipes characterized by topological channel layouts applicable for multi-heat source cooling. International Journal of Heat and Mass Transfer 242 (2025) 126869.

W. Yang, H. Zhang, J. Yang, J. Qu, Numerical study on fluid flow and heat transfer characteristics of supercritical CO₂ in horizontal tube under various non-uniform heating conditions. International Journal of Heat and Mass Transfer 236 (2025) 126399.

Z. Li, G. Zhou, P. Cheng, J. Qu, Heat transfer performance of novel 3D flat-plate oscillating heat spreader under gravity-assisted and anti-gravity conditions for high-density power electronics cooling. Applied Thermal Engineering 252 (2024), 123726.

J. Qu, Y. Lv, G. Zhou, Z. Li, Q. Sun, D. Zhang, Performance characteristics of ultra-thin flat plate oscillating heat pipes with alternate channels and auxiliary micro-grooved structures. International Communications in Heat and Mass Transfer 157 (2024) 107738. 

Y. Hua, J. Qu, W. Yang, T. Zhang, Y. Zhao, Thermal characteristics of a two-phase loop thermosyphon with micro-grooved structures inside the evaporator. International Journal of Heat and Mass Transfer 224 (2024) 125357.

B. Ye, J. Qu, H. Wang, S. Gao, H. Qiu, Rapid bubble growth within 200 μs in flat microchannels under “hot spot” heating conditions at ultra-high heat fluxes. International Journal of Heat and Mass Transfer 213 (2023) 124312.

S. Gao, J. Qu, Z. Liu, W. Ma, Sequential self-propelled morphology transitions of nanoscale condensates enable a cascade jumping-droplet condensation. Nano Energy 113 (2023) 108558.

G. Zhou, F. Guan, W. Yang, Q. Sun, J. Qu, Start-up and heat transfer characteristics of oscillating heat pipe charged with binary partially miscible organic fluid mixtures. Applied Thermal Engineering 231 (2023) 120952.

T. Zhang, J. Qu, Y. Hua, Heat transfer characteristics and operational visualization of two-phase loop thermosyphon. Applied Thermal Engineering 228 (2023) 120520.

D. Zhang, J. Mao, J. Qu, Q. Lei, C. Li. Characterizing effect of particle size on flow boiling in sintered porous-microchannels. Applied Thermal Engineering 229 (2023) 120571.

J. Qu, G. Zhou, M. Zhang, L. Shang, W. Yu. Effect of reverse irradiation angle on the photo-thermal conversion performance of MXene nanofluid-based direct absorption solar collector. Solar Energy Materials and Solar Cells 251 (2023) 112164.

Z. Zhou, J. Qu, T. Zhang, Q. Sun. Effect of heat leakage on the operational characteristics of two-phase loop thermosyphon with a thermal insulation pipe. International Journal of Heat and Mass Transfer 196 (2022) 123224.

J. Qu, L. Shang, Q. Sun, X. Han, G. Zhou. Photo-thermal characteristics of water-based graphene oxide (GO) nanofluids at reverse-irradiation conditions with different irradiation angles for high-efficiency solar thermal energy harvesting. Renewable Energy 195 (2022) 516-527.

S. Gao, J. Qu, Z. Liu, W. Liu. Nanoscale Thin-Film Boiling Processes on Heterogeneous Surfaces. Langmuir 38 (2022) 6352-6362.

Z. Zhou, Y. Lv, J. Qu, Q. Sun, D. Grachev. Performance evaluation of hybrid oscillating heat pipe with carbon nanotube nanofluids for electric vehicle battery cooling. Applied Thermal Engineering 196 (2021) 117300.

J. Qu, F. Guan, Y. Lv, Y. Wang. Experimental study on the heat transport capability of micro-grooved oscillating heat pipe. Case Studies in Thermal Engineering 26 (2021) 101210.

M. Zhou, J. Qu, Y. Ji. Dynamic characteristics of droplet impingement on carbon nanotube array surfaces with varying wettabilities. Applied Surface Science 554 (2021) 149359.

L. Shang, J. Qu, Z. Wang, M. Zhang, C. Li. Optical absorption property and photo-thermal conversion performance of Ag@Al₂O₃ plasmonic nanofluids with Al₂O₃ nano-shell fabricated by atomic layer deposition. Journal of Molecular Liquids 326 (2021) 115388.

编著及参编主要教材专著

杜敏、屈健等，《Principle and Technology of Solar Energy Utilization（太阳能利用原理与技术）》（双语），江苏大学出版社，2026.

Jian Qu, Qian Wang. MEMS-Based Micro-heat Pipes, Chapter 5 in "Electronics Cooling" (Editor: S M Sohel Murshed)．ISBN：978-953-51-4672-8, InTech press, 2016.

学术及科研成果

1.介微观系统多相/多组分流动及传热传质机理研究，教育部自然科学一等奖（排名2/5）, 2020

2.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5/11）, 2012

3.江苏省“333”高层次人才培养计划，2024

4.江苏省“六大人才高峰”高层次人才，2019

获奖情况

1.第22届国际热管会议最佳论文奖（Donald Martin Ernst Award），2024（两年一次）

2.指导研究生获得中国研究生能源装备创新设计大赛二等奖，2025

3.指导本科生获得全国能源动力类专业百篇优秀毕业论文（设计），2024

4.指导本科生获得全国大学生节能减排竞赛国际赛道银奖（等同一等奖），2023

5.指导本科生获得全国大学生节能减排竞赛一等奖，2022

6.指导研究生获得江苏省研究生节能低碳科研创新实践大赛一等奖，2020

授权专利

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

2.一种微热管抽真空及充注装置和方法. 发明专利, 专利号: ZL201611026718.3

3.一种无吸液芯超薄热管装置. 发明专利, 专利号: ZL201611050154.7

4.一种太阳能海水淡化装置. 发明专利, 专利号: ZL201910773825.X

5.一种用于平板微型热管的无死体积抽真空和充注装置. 发明专利, 专利号: ZL202110025759.5

6.一种仿生汗腺及仿生皮肤. 发明专利，专利号：ZL202111068605.0

7.一种芯片液冷散热用硅基腔槽. 发明专利, 专利号: ZL202210329385.0

其他

每年招收硕士生2-3人，博士生1人，欢迎报考.