Assistant Professor, Mechanical, Aerospace, and Nuclear Engineering
Develop next generation cooling solutions for high-power microelectronics based on phase change heat transfer, advanced manufacturing technologies, and state-of-the-art modeling and simulation techniques
Lan. E., Shi, S. (2023), RANS-Based CFD Simulation of Jet-Induced Mixing and Jet Impingement on Large Bubble in Microgravity, Nuclear Technology
Yilgor, I., Shi, S. (2022), Scaling laws for two-phase flow and heat transfer in high-temperature heat pipes, International Journal of Heat and Mass Transfer, 189
Shi, S., Liu, Y., Yilgor, I., Sabharwall, P. (2022) A two-phase three-field modeling framework for heat pipe application in nuclear reactors, Annals of Nuclear Energy, 165
Wang, D., Shi, S., Fu, Y., Song, K., Sun, X., Tentner, A., Liu, Y. (2021) Investigation of air-water two-phase flow characteristics in a 25.4 mm diameter circular pipe, Progress in Nuclear Energy, 138.
Yilgor, I., Shi, S. (2021) Modeling and investigation of three types of wick structures in heat pipe microreactor applications, Transactions of the American Nuclear Society, 124, 2021, pp.710-713.