个人介绍

研究领域

飞行器环境控制、飞机结冰防护

论文与著作

1. Numerical Simulation of Dynamic Characteristic of  Exhalation Valve of Aviation Oxygen Mask，AUS2020

2. Contrast Study and Parameter Modification of Two Mathematical Models of Human Thermal Regulation，AUS2020

3.  A Numerical simulation of frosting and condensation based on Nielsen dynamic frosting model，AUS2020

4. The Determination of the ETOPS Icing Condition，AUS2020

5.  Numerical simulation of aircraft icing based on the szilder random-walk model,AUS 2018,(EI收录 Accession number: 20184205944983)

6.  Influence of geometrical parameters on dust removal performance of cyclone dust collector for bleed air System of ECS，  AUS 2018,(EI收录 Accession number: 20184205944797)

7. Thermal comfort study in aircraft cabin based on human thermal regulation model, AUS 2018,(EI收录 Accession number:  20184205944798)

8. Analysis of disturbance characteristics of UAV fuel thermal management system , AUS 2018,(EI收录 Accession number: 20184205944796)

9.  Numerical investigation of influence of structure and operating parameters on performance of vortex oil filter, AUS 2018,(EI收录  Accession number: 20184205944795)

10. R134a在多孔扁管内沸腾换热试验研究[J];南京航空航天大学学报,2013

11. 引射式结冰风洞内圆柱结冰试验，航空动力学报，2013

12.  复合材料部件电加热防冰性能试验，航空学报，2013

13.  微引射热气除冰腔引射性能研究，南京航空航天大学学报，2013

14.  带气膜的发动机导向叶片热气防冰系统数值模拟研究，全国流体力学青年研讨会，2011

15. 发动机滑油散热系统改进，航空动力学报，2010年（EI收录）

16.  Numerical Investigation of Supercooled Droplets impingement on Complicated Icing Surface. Modern Physics Letters B[J], 2009 Vol: 23 Issue: 3 Page: 469 – 472，2009（SCI收录）

17. Numerical Simulation of Rime Ice Accretion Process on Airfoil. Heat Transfer- Asian Research[J], 2005, 34(4):226-234（EI收录）

18.  Prediction of Rime Ice Accretion and the Resulting Effect on Airfoil Performance. Transactions of Nanjing University of Aeronautics and Astronautics, 2005，22(1):9-15（EI收录）

19. 瘤状冰结冰过程的数值模拟. 航空动力学报，2005，20(3):472-476（EI收录）

20. 飞机机翼结冰过程的数值模拟，航空动力学报，2005，20(6):1010-1017（EI收录）

21. 飞机机翼表面霜状冰结冰过程的数值模拟. 航空动力学报，2004，19（1）：137-141（EI收录）

荣誉与奖励

• 学术任职

1. 航空机电、人体与环境工程分会青年工作委员会副主任委员

2. 航空防护救生技术（襄樊）航空科技重点实验室学术委员会委员

3. 中国仿真学会人工智能仿真技术专业委员会委员 

4. 中国制冷学会科普教育基地（飞行器环境与生命保障实验室）副秘书长

5. 《International Journal of Thermofluid Science and Technology》-Associate editor

• 教学奖励

1. 江苏省高校微课教学比赛 2017 江苏省教育厅 三等奖

2. 南京航空航天大学微课教学比赛 2017 南京航空航天大学 一等奖

3. 南京航空航天大学教学优秀奖 2018 南京航空航天大学 二等奖

个人介绍

研究领域

飞行器环境控制，空调制冷技术

论文与著作

荣誉与奖励

个人介绍

研究领域

1. 建筑环境与能源应用，制冷与空调，建筑节能，数据中心节能等

2. 飞行器环境控制、飞行器综合能量管理

3. 机载高热流密度电子设备热管理与热设计

4. 热管技术的基础理论和工程应用，包括重力热管、动力热管、旋转热管等

论文与著作

1. X. Yang, X, P. Zhang, Y. Li, et al. A practical design method for two-phase thermosyphon loop based on approaching degree to “ideal cycle”, Applied Thermal Engineering, 2021, 182. (SCI, EI, IF=4.73,)

2. P. Zhang, X., Rong, X. Yang, et al. Design and performance simulation of a novel hybrid PV/T-air dual source heat pump system based on a three-fluid heat exchanger. Solar Energy, 2019, 191:505-517. (SCI, EI, IF=4.67)

3. P. Zhang, W. Shi, X. Li , et al. A performance evaluation index for two-phase thermosyphon loop used in HVAC systems. Applied Thermal Engineering, 2018, 131:825-836. (SCI, EI, IF=4.7)

4. P. Zhang, B. Wang, W. Shi, et al. Experimental investigation on two-phase thermosyphon loop with partially liquid-filled downcomer. Applied Energy, 2015, 160:10-17. (SCI, EI, IF=8.85)

5. P. Zhang, B. Wang, W. Wu, et al. Heat recovery from Internet data centers for space heating based on an integrated air conditioner with thermosyphon. Renewable Energy. 2015, 80:396-406. (SCI, EI, IF=6.27)

荣誉与奖励

• 江苏省“双创博士”；

• 江苏省优秀毕业论文指导教师

个人介绍

研究领域

高效传热传质，综合热/能量管理，大数据智能设计

论文与著作

• Guangya Zhu, Tao Wen, Dalin Zhang. Machine learning based approach for the prediction of flow boiling/condensation heat transfer performance in mini channels with serrated fins. International Journal of Heat and Mass Transfer 166 (2021) 120783.

• Guangya Zhu, T.T. Chow, K.F. Fong, C.K. Lee. Comparative study on humidified gas turbine cycles with different air saturator designs. Applied Energy 254 (2019) 113592.

• Guangya Zhu, T.T. Chow. Design optimization and two-stage control strategy on combined cooling, heating and power system. Energy Conversion and Management 199 (2019) 111869.

• Guangya Zhu, T.T. Chow, K.F. Fong, C. K. Lee, X.J. Luo. Design optimisation and performance appraisal of a combined cooling, heating and power system primed with Maisotsenko combustion turbine cycle. Energy Conversion and Management 177(1) (2018) 91-106. 

• Guangya Zhu, Tin-Tai Chow, Norman Tse. Short-term load forecasting coupled with weather profile generation methodology. Building Services Engineering Research and Technology 39 (3) (2018) 310-327.

• Guangya Zhu, Tin-Tai Chow, C.K. Lee. Performance analysis of counter-flow regenerative heat and mass exchanger for indirect evaporative cooling based on data-driven method. Energy and Buildings 155 (2017) 503-512. 

• Guangya Zhu, Tin-Tai Chow. Numerical study on Finned Latent Heat Storage for Tri-generation System, International Conference on Energy, Environment and Economics, 14-16 August 2018, Edinburg (UK).

• Guangya Zhu, Tin-Tai Chow, Fong Kwong Fai, C.K. Lee. Investigation on Humidified Gas Turbine Cycles with Maisotsenko-Cycle-Based Air Saturator, International Conference on Applied Energy 22-25 August 2018, Hong Kong (China). 

• Tin-Tai Chow, Guangya Zhu, C.K. Lee. System optimization of innovative tri-generation system for distributed power application, 13th REHVA World Congress CLIMA2019, 26-29 May 2019 Bucharest (Romania). 

荣誉与奖励