Name: SUN QIN
Title: Assistant Professor
E-mail:sunqin@ujs.edu.cn

Working Experience
August 2019 - Present   Jiangsu University, Assistant Professor
December 2017 – November 2018   Auburn University, Visiting academic

Education Background
● Doctor of Engineering (Sep. 2013 – Jun. 2019)
-Major: Power Engineering and Engineering Thermophysics
● Bachelor of Engineering (Sep. 2009 - Jun.2013)
-Major: Energy and Power Engineering

Research Interests
● Microchannel Flow Boiling
● Heat and Mass Transfer of Heat Pipe
● Thermal management of electronics

Research Techniques and Skills
● Experimental techniques: (a) High Speed Camera; (b) Vacuum chamber design; (c) vacuum and charging for the heat pipe
● Other skills: Application of MATLAB, CREAO and ORIGIN in heat transfer of vapor/liquid phase change

Projects
● National Natural Science Foundation of China No.52306087
● China Postdoctoral Science Foundation No.2021M691296

Publications
● Zhou, G., Guan, F., Yang, W., Sun, Q., & Qu, J. (2023). Start-up and heat transfer characteristics of oscillating heat pipe charged with binary partially miscible organic fluid mixtures. Applied Thermal Engineering, 120952.
● Zhou, Z., Qu, J., Zhang, T., & Sun, Q. (2022). 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, 123224.
● Zhou, Z., Lv, Y., Qu, J., Sun, Q., & Grachev, D. (2021). Performance evaluation of hybrid oscillating heat pipe with carbon nanotube nanofluids for electric vehicle battery cooling. Applied Thermal Engineering, 196, 117300.
● Wang, H., Qu, J., Sun, Q., Kang, Z., & Han, X. (2020). 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, 167, 114815.
● Sun, Q., Qu, J., Yuan, J., Wang, H., & Thompson, S. M. (2019, July). Fluid Flow and Heat Transfer Characteristics of Micro Oscillating Heat Pipes With and Without Expanding Channels. In International Conference on Micro/Nanoscale Heat Transfer (Vol. 58905, p. V001T12A004). American Society of Mechanical Engineers.
● Wang, H., Qu, J., Peng, Y., & Sun, Q. (2019). 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, 189, 215-222.
● Wang, H., Qu, J., Peng, Y., & Sun, Q. (2019). 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, 189, 215-222.
● Qu, J., Sun, Q., Wang, H., Zhang, D., & Yuan, J. (2019). Performance characteristics of flat-plate oscillating heat pipe with porous metal-foam wicks. International Journal of Heat and Mass Transfer, 137, 20-30.
● Sun, Q., Qu, J., Li, X., & Yuan, J. (2017). Experimental investigation of thermo-hydrodynamic behavior in a closed loop oscillating heat pipe. Experimental Thermal and Fluid Science, 82, 450-458.
● Sun, Q., Qu, J., Yuan, J., & Wang, Q. (2017). Operational characteristics of an MEMS-based micro oscillating heat pipe. Applied Thermal Engineering, 124, 1269-1278.
● Sun, Q., Qu, J., Wang, Q., & Yuan, J. (2017). Operational characteristics of oscillating heat pipes under micro-gravity condition. International Communications in Heat and Mass Transfer, 88, 28-36.
● Qu, J., Wu, H., Cheng, P., Wang, Q., & Sun, Q. (2017). Recent advances in MEMS-based micro heat pipes. International Journal of Heat and Mass Transfer, 110, 294-313.
● Qu, J., Wang, Q., & Sun, Q. (2016). Lower limit of internal diameter for oscillating heat pipes: A theoretical model. International Journal of Thermal Sciences, 110, 174-185.