Research output per year
Research output per year
Personal profile
In Korean
김상훈 교수(공과대학/기계공학부)
Education
(2015) B.S., Sungkyunkwan University
(2018) M.S., Seoul National University
(2025) Ph.D., Korea Advanced Institute of Science and Technology
(2018) M.S., Seoul National University
(2025) Ph.D., Korea Advanced Institute of Science and Technology
Professional Experience
(2025~Present) Assistant Professor, Kyungpook National University (KNU), Daegu, South Korea
(2025~2025) Senior Researcher, Hanwha Aerospace (HAS), Daejeon, South Korea
(2018~2021) Senior Researcher, Korea Aerospace Industries (KAI), Sacheon, South Korea
(2025~2025) Senior Researcher, Hanwha Aerospace (HAS), Daejeon, South Korea
(2018~2021) Senior Researcher, Korea Aerospace Industries (KAI), Sacheon, South Korea
Research Interests
High-enthalpy gas dynamics, Rarefied gas dynamics, Computational fluid dynamics (CFD), Direct Simulation Monte Carlo (DSMC), Supersonic fighter, Launch vehicle, Hypersonic missile
Major Research Achievements
o Numerical simulation of high-enthalpy flows with chemical reactions
o Numerical simulation of transonic flows with high-fidelity turbulence models
o Numerical simulation of multiscale rarefied gases using a hybrid continuum–rarefied approach
o Numerical simulation of transonic flows with high-fidelity turbulence models
o Numerical simulation of multiscale rarefied gases using a hybrid continuum–rarefied approach
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Collaborations and top research areas from the last five years
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A particle Fokker-Planck method for rarefied gas flows of monatomic mixtures
Kim, S. & Jun, E., 1 Jan 2025, In: Physics of Fluids. 37, 1, 016104.Research output: Contribution to journal › Article › peer-review
3 Scopus citations -
A stochastic particle method based on the Fokker-Planck Master equation for rarefied gas flows of diatomic mixtures
Kim, S. & Jun, E., 1 Mar 2025, In: Physics of Fluids. 37, 3, 036111.Research output: Contribution to journal › Article › peer-review
2 Scopus citations -
An approach for multiscale two-phase flow simulation in the direct simulation Monte Carlo framework
Shin, Y., Kim, S. & Jun, E., 1 Jun 2024, In: Physics of Fluids. 36, 6, 063331.Research output: Contribution to journal › Article › peer-review
4 Scopus citations -
An evaluation of the hybrid Fokker–Planck-DSMC approach for high-speed rarefied gas flows
Kim, S. & Jun, E., 15 Dec 2024, In: Computers and Fluids. 285, 106456.Research output: Contribution to journal › Article › peer-review
6 Scopus citations -
A second-order particle Fokker-Planck model for rarefied gas flows
Kim, S., Park, W. & Jun, E., Nov 2024, In: Computer Physics Communications. 304, 109323.Research output: Contribution to journal › Article › peer-review
Open Access11 Scopus citations