Publications

34. Lee, Seunghwan, et al. “Critical heat flux in pool boiling on femtosecond laser-irradiated copper powder-sintered surfaces.” Thermal Science and Engineering Progress 60 (2025): 103421.

33. Lee, Seunghwan, and Jaeseon Lee. “Continuous charge separation of electrified air–water two-phase bulk flow.” Energy Conversion and Management 312 (2024): 118550.

32. Lee, Seunghwan, et al. “Femtosecond laser-treated copper sintering surface to enhance pool boiling heat transfer.” International Communications in Heat and Mass Transfer 152 (2024): 107270.

31. Lee, Seunghwan, et al. “Pool-boiling enhancement on periodic micro/nano ripple-structured surfaces fabricated by femtosecond laser.” International Communications in Heat and Mass Transfer 148 (2023): 107072.

30. Lee, Seunghwan, and Jaeseon Lee. “Enhanced Wicking Effect on Femtosecond Laser Treated Porous Microgroove Structured Surface.” Proceeding of Joint 21st IHPC and 15th IHPS (2023).

29. Lim, Kihoon, et al. “Enhancement of flow boiling heat transfer by laser-induced periodic surface structures using femtosecond laser.” International Journal of Heat and Mass Transfer 196 (2022): 123229.

28. Lee, Seunghwan, and Jaeseon Lee. “Improvement of humid air condensate drainage through bi-philic patterned surfaces.” International Journal of Heat and Mass Transfer 194 (2022): 123097.

27. Lim, Kihoon, and Jaeseon Lee. “Experimental study on single-phase convective heat transfer of interlocking double-layer counterflow mini-channel heat sink.” Energy Conversion and Management 243 (2021): 114415.

26. Wang, C., Gong, Y., Cunning, B. V., Lee, S., Le, Q., Joshi, S. R., … Jaeseon Lee & Ruoff, R. S. (2021). A general approach to composites containing nonmetallic fillers and liquid gallium. Science advances7(1), eabe3767.

25. Lee, Seunghwan, and Jaeseon Lee. “Surface hydrophobicity change on adiabatic two-phase flow pattern transitions in horizontal tubes.” Experimental Thermal and Fluid Science 120 (2021): 110236.

24. Lee, Junbeom, Seunghwan Lee, and Jaeseon Lee. “Improved humid air condensation heat transfer through promoting condensate drainage on vertically stripe patterned bi-philic surfaces.” International Journal of Heat and Mass Transfer 160 (2020): 120206.

23. Lim, Kihoon, Jongkyu Kim, and Jaeseon Lee. “Comparative study on adsorbent characteristics for adsorption thermal energy storage system.” International Journal of Energy Research 43.9 (2019): 4281-4294.

22. Kim, Dongsu, and Jaeseon Lee. “Influence of shock structure on heat transfer characteristics in supersonic under-expanded impinging jets.” International Journal of Thermal Sciences 141 (2019): 62-71.

21. Lim, Kihoon, and Jaeseon Lee. “1-D two-phase flow analysis for interlocking double layer counter flow mini-channel heat sink.” International Journal of Heat and Mass Transfer 135 (2019): 305-317.

20. Jang, Yongtae, and Jaeseon Lee. “Comprehensive assessment of the impact of operating parameters on sub 1-kW compact ORC performance.” Energy Conversion and Management 182 (2019): 369-382.

19. Kwak, Songmi, and Jaeseon Lee. “Eulerian multiphase analysis for heat transfer enhancement by CO2 sublimation in slot jet impingement.” International Journal of Multiphase Flow 107 (2018): 182-191.

18. Jang, Yongtae, and Jaeseon Lee. “Influence of superheat and expansion ratio on performance of organic Rankine cycle-based combined heat and power (CHP) system.” Energy conversion and management 171 (2018): 82-97.

17. Jang, Yongtae, and Jaeseon Lee. “Optimizations of the organic Rankine cycle-based domestic CHP using biomass fuel.” Energy Conversion and Management 160 (2018): 31-47.

16. Joo, Dongkook, and Jaeseon Lee. “Numerical study on bubble behavior in magnetic nanofluid used for waste heat recovery power generation concept.” International Journal of Energy Research 42.2 (2018): 520-531.

15. Lim, Kihoon, Junbeom Lee, and Jaeseon Lee. “Two-phase flow analysis of a double layer counter flow mini-channel heatsink with 1D countercurrent flow model.” International Heat Transfer Conference Digital Library. Begel House Inc., 2018.

14. Lim, Kihoon, Junbiao Che, and Jaeseon Lee. “Experimental study on adsorption characteristics of a water and silica-gel based thermal energy storage (TES) system.” Applied Thermal Engineering 110 (2017): 80-88.

13. Ghim, Goohyun, and Jaeseon Lee. “Condensation heat transfer of low GWP ORC working fluids in a horizontal smooth tube.” International Journal of Heat and Mass Transfer 104 (2017): 718-728.

12. Kim, Dongsu, and Jaeseon Lee. “Experimental investigation of CO2 dry-ice assisted jet impingement cooling.” Applied Thermal Engineering 107 (2016): 927-935.

11. Ghim, Goohyun, and Jaeseon Lee. “Experimental evaluation of the in-tube condensation heat transfer of pure n-pentane/R245fa and their non-azeotropic mixture as an ORC working fluid.” Applied Thermal Engineering 106 (2016): 753-761.

10. Shah, Mirza Mohammad, Ahmad M. Mahmoud, and Jaeseon Lee. “An Assessment of Some Predictive Methods for In-tube Condensation Heat Transfer of Refrigerant Mixtures.” Ashrae Transactions 119.2 (2013).

9. Lee, Jaeseon, and Issam Mudawar. “Experimental investigation and theoretical model for subcooled flow boiling pressure drop in microchannel heat sinks.” (2009): 031008.

8. Lee, Jaeseon, and Issam Mudawar. “Critical heat flux for subcooled flow boiling in micro-channel heat sinks.” International Journal of Heat and Mass Transfer 52.13-14 (2009): 3341-3352.

7. Lee, Jaeseon, and Issam Mudawar. “Low-temperature two-phase microchannel cooling for high-heat-flux thermal management of defense electronics.” IEEE transactions on components and packaging technologies 32.2 (2009): 453-465.

6. Lee, Jaeseon, and Issam Mudawar. “Fluid flow and heat transfer characteristics of low temperature two-phase micro-channel heat sinks–Part 2. Subcooled boiling pressure drop and heat transfer.” International Journal of Heat and Mass Transfer 51.17-18 (2008): 4327-4341.

5. Lee, Jaeseon, and Issam Mudawar. “Fluid flow and heat transfer characteristics of low temperature two-phase micro-channel heat sinks–Part 1: Experimental methods and flow visualization results.” International Journal of Heat and Mass Transfer 51.17-18 (2008): 4315-4326.

4. Lee, Jaeseon, and Issam Mudawar. “Assessment of the effectiveness of nanofluids for single-phase and two-phase heat transfer in micro-channels.” International Journal of Heat and Mass Transfer 50.3-4 (2007): 452-463.

3. Lee, Jaeseon, and Issam Mudawar. “Implementation of microchannel evaporator for high-heat-flux refrigeration cooling applications.” (2006): 30-37.

2. Lee, Jaeseon, and Issam Mudawar. “Two-phase flow in high-heat-flux micro-channel heat sink for refrigeration cooling applications: Part I––pressure drop characteristics.” International Journal of Heat and Mass Transfer 48.5 (2005): 928-940.

1. Lee, Jaeseon, and Issam Mudawar. “Two-phase flow in high-heat-flux micro-channel heat sink for refrigeration cooling applications: Part II—heat transfer characteristics.” International Journal of Heat and Mass Transfer 48.5 (2005): 941-955.