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        當前位置: 首頁 > 師資隊伍 > 教授風采 > 正文

        姓名 屈健

        個人簡歷

        出生年月:1980.03

        任職年月:2010.07

        職稱: 教授

        黨政職務: 系主任

        技術職務:

        所在學科:工程熱物理

        導師:博導/碩導

        最高學位:博士/上海交通大學 美國弗吉尼亞大學(20148-11月)和香港科技大學(2018)訪問學習

        聯系方式:rjqu@ujs.edu.cn

        學術任職: 1. 國家自然科學基金評審專家,北京市自然科學基金評審專家;2. ASME J. Heat Transfer、Int. J. Heat & Mass Transfer、Int. J. Thermal Sciences、Int. Comm. Heat Mass Transfer、Heat Transfer Eng.、J. Micromechanics & Microengineering、Applied Energy、Energy、Experimental Thermal & Fluid Science、Applied Thermal Engineering、Heat & Mass Transfer、Chemical Engineering Journal、Physics of Fluids、J. Molecular Liquids、Solar Materials & Solar Cells、Energy Sources, Part A: Recovery, Utilization, and Environmental Effects、Microelectronics Reliability、J. Energy Storage、Int. J. Energy Research、Energy Conversion & Management、Cryogenics、Case Studies in Thermal Engineering、J. Thermal Science、Chinese J. Chemical Engineering、化工學報、化工進展、中國機械工程學報等國內外學術期刊的論文審稿人

        研究領域

        1. 微納尺度流動與傳熱

        2. 微電子/光電器件高效冷卻及動力電池/數據中心熱管理

        3. 納米流體光熱轉化及太陽能熱利用技術

        在研項目

        1. 國家自然科學基金項目(No.51576091),2016-2019;

        2. 江蘇省“六大人才高峰”項目(No. XNYQC-027),2019-2021;

        3. 中國博士后科學基金特別資助(第8批)(No.2015T80523),2015-2017;

        主要論文

        Journal Papers:

        2020

        * J. Qu, R. Zhang, L. Shang, Z. Wang. Graphene oxide/multiwalled carbon nanotubeTherminol?66 hybrid nanofluids for low-to-medium temperature volumetric solar collectors. International Journal of Energy Research, 2020, 44: 7216-7228.

        * H. Wang, J. Qu, Q. Sun, Z. Kang, X. Han. Thermal characteristic comparison of three-dimensional oscillating heat pipes with/without sintered copper particles inside flat-plate evaporator for concentrating photovoltaic cooling. Applied Thermal Engineering, 2020, 167: 114815.

        * X. Han, X. Chen, Y. Sun, J. Qu. Performance improvement of a PV/T system utilizing Ag/CoSO4-propylene glycol nanofluid optical filter. Energy, 2020, 192: 116611.

        * D. Zhang, H. Xu, Y. Chen, L. Wang, J. Qu, M. Wu, Z. Zhou. Boiling Heat Transfer Performance of Parallel Porous Microchannels. Energies, 2020, 13: 2970.

        2019

        * J. Qu, Y. Yang, S. Yang, D. Hu, H. Qiu. Droplet impingement on nano-textured superhydrophobic surface: Experimental and numerical study. Applied Surface Science 2019, 491: 160-170.

        * Z. Wang, J. Qu, R. Zhang, X. Han, J. Wu. Photo-thermal performance evaluation on MWCNTs-dispersed microencapsulated PCM slurries for direct absorption solar collectors. Journal of Energy Storage 2019, 26: 100793.

        * H. Wang, J. Qu, Y. Peng, Q. Sun. Heat transfer performance of a novel tubular oscillating heat pipe with sintered copper particles inside flat-plate evaporator and high-power LED heat sink application. Energy Conversion and Management, 2019, 189: 215-222.

        * X. Han, X. Chen, Q. Wang, S. M. Alelyani, J. Qu. Investigation of CoSO4-based Ag nanofluids as spectral beam splitters for hybrid PV/T applications. Solar Energy, 2019, 177: 387-394.

        * J. Qu, R. Zhang, Z. Wang, Q. Wang. Photo-thermal conversion properties of hybrid CuO-MWCNT/H2O nanofluids for direct solar thermal energy harvest. Applied Thermal Engineering, 2019, 147: 390-398. (ESI Highly Cited Paper)

        * J Qu, Q Sun, H Wang, D Zhang, J Yuan. Performance characteristics of flat-plate oscillating heat pipe with porous metal-foam wicks. International Journal of Heat and Mass Transfer, 2019, 137: 20-30.

        * A Wei, J Qu, H Qiu, C Wang, G Cao. Heat transfer characteristics of plug-in oscillating heat pipe with binary-fluid mixtures for electric vehicle battery thermal management. International Journal of Heat and Mass Transfer, 2019, 135: 746-760.

        2018

        * 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, 42: 2456-2464.

        * 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.

        * C. Wang , Y. Zhu, J. Qu. Automatic air temperature control in a container with an optic-variable wall. Applied Energy, 2018, 224: 671-681.

        2017

        * 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 IIIV 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.

        2016

        * 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.

        2015以前

        * 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: 10041007.

        * 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: 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, 50:1954-1962.

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

        * J Qu, H Wu, P Cheng.Thermal performance of an oscillating heat pipe with Al2O3water nanofluids.   International Communications in Heat & Mass Transfer, 2010, 37: 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: 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: 523-528.

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

        --------------------------------------------

        * 周智程, 魏愛博, 屈健, 關鳳渤, D. Grachev, 郭澤霖. 管板結構脈動熱管冷卻動力電池的傳熱特性. 化工進展, 2020.

        * 楊舒生, 屈 健, 楊學貴. 液滴撞擊超疏水碳納米管陣列表面的行為研究. 工程熱物理學報, 2018, 39 (7): 1549-1556.

        * , 友權, . 帶平板蒸發器的緊湊型三維脈動熱管傳熱特性. 化工學報, 2018, 69 (7): 2899-2907.

        * 屈健, 張若梅, 田敏. 氧化銅-碳納米管/水混合納米流體的光熱性能. 化工進展, 2018, 37 (6): 2125-2131.

        * 孫芹, 屈健, 袁建平.等截面和變截面通道硅基微型脈動熱管傳熱特性比較. 化工學報, 2017, 68 (5):1803-1810.

        * 屈健, 田敏, 王謙等. 碳納米管-水納米流體的光熱轉化特性. 化工學報, 2016, 67: 113-119.

        * 李孝軍, 屈健, 韓新月等. 微槽道脈動熱管的啟動及傳熱特性. 化工學報, 2016, 67(6): 2263-2270.

        * 屈健, 孫芹, 王謙.考慮接觸角滯后的脈動熱管工質運動特性研究. 工程熱物理學報,2015, 36 (9): 1990-1994.

        * 屈健, 王謙, 何志霞等. 矩形微通道內液滴產生和運動特性實驗研究. 上海交通大學學報, 2015, 49 (01): 86-90.

        * 韓新月, 屈健, 郭永杰. 溫度和光強對聚光硅太陽電池特性的影響研究. 太陽能學報, 2015, 36 (7): 1585-1590.

        * 屈健, 王謙, 韓新月等. 大深寬比雙T型微通道內液-液兩相流可視化研究. 化工進展, 2014, 33 (10): 2583-2587.

        * 屈健. 脈動熱管技術研究及應用進展. 化工進展,  2013, 32 (1): 33-41.

        * 屈健, 吳慧英. /FC-72 納米乳液振蕩熱管傳熱特性研究. 高?;瘜W工程學報, 2012, 26 (2): 210-215.

        * 屈健, 吳慧英. 微型硅基振蕩熱管傳熱特性. 化工學報, 2011,62 (11): 3046-3052.

        * 屈健, 吳慧英, 鄭平. 硅基微型振蕩熱管的流動可視化實驗研究. 中國科學: 技術科學, 2010, 40 (5): 575-581.

        * 屈健, 吳慧英, 唐慧敏. 微小型振蕩熱管的流動可視化實驗. 航空動力學報, 2009, 24 (4): 766-771.

        * 吳信宇, 吳慧英, 屈健等. 納米流體在芯片微通道中的流動與換熱特性. 化工學報, 2008, 59 (9): 2181-2187.

        --------------------------------------------

        Conference Proceedings

        * J Qu. Preliminary Attempt to Introduce Wicking Structures into Oscillating Heat Pipes. International Symposium on Oscillating/Pulsating Heat Pipes (ISOPHP) 25-28 September 2019, Daejeon, Korea. (Keynote Speaker)

        * J Qu, R Zhang, Z Wang. Photo-thermal conversion characteristics of hybrid GO-MWCNT/Therminol? 66 nanofluids for direct absorption solar collectors. 10th International Conference on Applied Energy (ICAE2018), 22-25 August 2018, Hong Kong.

        * 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, 12-16 June 2016, Jeju, Korea.

        * J Qu, Q Wang. THERMAL ERFORMANCE OF A VERTICAL CLOSED-LOOP OSCILLATING HEAT PIPE AND A PROPOSED CORRELATION.4th International Conference on Applied Energy, 5-8 July 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, 14-15 Dec. 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, 18-22 Dec. 2009, Shanghai, China.

        編著及參編主要教材專著

        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.

        獲獎情況

        1. 江蘇大學“青年骨干教師工程”青年學術帶頭人培育對象, 2014-2017

        2. 2012-2015年江蘇大學“優秀學業導師”

        授權專利

        1. 具有功能表面的微型熱管陣列芯片的制備方法. 發明專利, 專利號: ZL200710043439.2.

        2. 集成脈動芯片熱管及其制備方法. 發明專利, 專利號: ZL200810036572.X.

        3. 一種納米乳液脈動熱管的制造方法. 發明專利, 專利號: ZL201110285165.4.

        4. 一種具有功能通道結構的硅基微型脈動熱管. 發明專利, 專利號: ZL201410025799.X.

        5. 一種微熱管真空充注裝置和方法. 發明專利, 申請號: ZL201611026718.3

        6. 一種無吸液芯超薄熱管裝置. 發明專利, 專利: ZL201611050154.7

        其他

        1. 每年招收工程熱物理、熱能工程、新能源等相關專業博士研究生1名,碩士研究生2-3名,歡迎報考.

        學院微信公眾號

        能動學院微博

        中国足球队比赛直播---中国足彩网
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