Research & Publications

I am interested in heat transfer, liquid-vapor phase change phenomena, flow visualization, and additive manufacturing. During my Ph.D., I have worked to reveal key insights into fundamental thermofluidic physics of the operation principles of a plate heat exchanger, which we see as a thermal transport device with complex micro- and minichannels.

Currently I am a postdoctoral scholar at the Stanford Nanoheat Laboratory led by Prof. Kenneth Goodson. During my Ph.D., I conducted research as a member of Prof. Anthony Jacobi's research group at the Air Conditioning and Refrigeration Center (ACRC), Mechanical Science and Engineering, University of Illinois.

Confined bubble

In 3D-printed plate heat exchanger replica

3D printing (SLA)

Transparent test section building for high-speed flow visualization

3D-printed transparent replica

Complex internal channel shape without support structure

Journals

[-] H. J. Kim, L. Liebenberg, and A. M. Jacobi, “R-245fa boiling at low mass flux in a plate heat exchanger near the micro-macroscale transition,” in preparation.

[4] H. J. Kim, L. Liebenberg, and A. M. Jacobi, “Flow visualization of two-phase R-245fa at low mass flux in a plate heat exchanger near the micro-macroscale transition,” Sci. Tech. Built Env., 25(10). doi:10.1080/23744731.2019.1648980

[3] H. J. Kim, L. Liebenberg, and A. M. Jacobi, “Convective boiling of R-134a near the micro-macroscale transition inside a vertical BPHE,” J. Heat Transf., 140(9):091501, 2018. doi:10.1115/1.4039397.

[2] N. Moller, H. J. Kim, V. S. Neary, M. H. Garcia, and L. P. Chamorro, “On the near-wall effects induced by an axial-flow rotor,” Renew. Energ., 91, 524-530, 2016. doi:10.1016/j.renene.2016.01.051.

[1] J. Zhu, H. J. Kim, and S. G. Kapoor, “Microscale drilling of bulk metallic glass,” J. Micro Nano-Manuf., 1(4), 041004, 2013. doi: 10.1115/1.4025538.


Conference proceedings

[-] H. J. Kim, K. W. Jung, S. Hazra, M. Asheghi, and K. E. Goodson, "Development of 3D-printed manifolds to reduce pressure drop in embedded microchannel coolers for high heat-flux electronics applications," abstract submitted for publication in Proc. of Intl. Tech. Conf. and Exhibition on Packaging & Integration of Electronic and Photonic Microsystems (InterPACK), Anaheim, CA, Oct. 27 - 29, 2020.

[-] K. W. Jung, H. J. Kim, H. Lee, F. Zhou, M. Asheghi, E. Dede, and K. E. Goodson, "The effect of geometric changes in embedded microchannel-3D manifold cooling device on thermo fluidic characteristics," abstract submitted for publication in Proc. of IEEE Intersociety Conf. on Thermal & Thermomechanical Phenomena in Electronic Systems (ITherm), Orlando, FL, May 26 - 29, 2020.

[4] H. J. Kim, L. Liebenberg, and A. M. Jacobi, “Flow Visualization of Two-Phase R-245fa at Low Mass Flux in a Plate Heat Exchanger near the Micro-Macroscale Transition,” in Proc.of the 17th Intl. Refrigeration & Air Conditioning Conf., West Lafayette, IN, July 9 – 12, 2018. 2nd Place Paper Award.

[3] H. J. Kim, L. Liebenberg, and A. M. Jacobi, “Thermal-hydraulic performance of R-134a boiling at low mass fluxes in a vertical brazed plate heat exchanger,” Proc. of American Society of Mechanical Engineers (ASME) Summer Heat Transfer Conf., Bellevue, WA, July 9 – 14, 2017. doi:10.1115/HT2017-5083.

[2] J. Zhu, H. J. Kim, and S. G. Kapoor, “Microscale drilling of bulk metallic glass,” Proc. of the 8th Intl. Conf. on Micromanufacturing, Victoria, BC, Canada, Mar. 26 – 28, 2013, Best Paper Award.

[1] H. J. Kim and D. C. Kyritsis, “Exergetic analysis of power plants operating on biomaterials,” Proc. of Power and Energy Conf. at Illinois, Urbana, IL, Feb. 22 -23, 2013. doi: 10.1109/PECI.2013.6506028.

Invited talks

[5] H. J. Kim, “Convective boiling of refrigerants near the micro-macroscale transition inside plate heat exchangers,” seminar at Northern Arizona State University, Flagstaff, AZ, Mar. 4, 2020.

[4] H. J. Kim, “Convective boiling of refrigerants near the micro-macroscale transition inside plate heat exchangers,” seminar at the University of Alabama, Tuscaloosa, AL, Feb. 27, 2020.

[3] H. J. Kim, “Convective boiling of refrigerants near the micro-macroscale transition inside plate heat exchangers,” seminar at the University of Memphis, Memphis, TN, Feb. 21, 2020.

[2] H. J. Kim, “Convective boiling of refrigerants near the micro-macroscale transition inside plate heat exchangers,” seminar at Purdue University, West Lafayette, IN, Feb. 13, 2020.

[1] H. J. Kim, “Convective boiling of refrigerants near the micro-macroscale transition inside plate heat exchangers,” seminar at Sookmyung Women's University, Seoul, Korea, Oct. 24, 2019.


Cool umbrella in Yufuin, Japan

Hydrophobicity is used to create sakura pattern on the umbrella.

(Trip to Yufuin after the 10th International Conference on Boiling and Condensation Heat Transfer (ICBCHT2018) in Nagasaki, Japan)