- * 프린트는 Chrome에 최적화 되어있습니다. print
Mechanical Engineering / 기계공학과
Jae Hwa Lee 이재화
Mechanical Engineering / 기계공학과
+82-52-217-2350
jhlee06@UNIST.AC.KR
http://flow.unist.ac.kr
Bldg. 112 Rm. 401-7
Curriculum Vitae
· 2014~Present: Assistant/Associate/Full Professor, UNIST, South Korea
· 2021~2022: Visiting Scholar, UCLA, USA
· 2012~2014: Post-doctoral Researcher, School for Engineering of Matter, Transport and Energy, Arizona State University, Tempe, AZ, USA
· 2012: Post-doctoral Researcher, in Mechanical Engineering, KAIST, South Korea
Academic Credential
· 2012: Ph.D. in Mechanical Engineering, KAIST, South Korea
· 2008: M.S. in Mechanical Engineering, KAIST, South Korea
· 2006: B.S. in Mechanical Engineering, Pusan National University, South Korea
Awards/Honors/Memberships
· 2019, Best Paper Award, Annual Meeting of Korean Soc. Comput. Fluids Eng. (KSCFE), Korea
· 2019, Best Paper Award, Annual Meeting of Korean Soc. Mech. Eng. (KSME), Korea
· 2018, Best Paper Award, Annual Meeting of Korean Soc. Comput. Fluids Eng. (KSCFE), Korea
· 2018, Best Paper Award, The 10th National Congress on Fluids Eng. (NCFE), Korea
· 2018, Best Paper Award, Annual Meeting of Korean Soc. Mech. Eng. (KSME), Korea
· 2017, Best Paper Award, Annual Meeting of Korean Soc.
About 25% of the total energy used in industry is known to spend in moving vehicles through air or water, or fluids along pipes and canals, and fluids can be a process carrier or material through which transport, separation and conversion processes occur. Thus, understanding of flows is of huge technological importance in aerodynamic and hydrodynamic applications.
In this aspect, we perform research on topics of energetic flows both ranging from fundamental to applied engineering to understanding, predicting and controlling flows. The research includes studies of turbulent flows with physical modeling, fluid-structure interaction problems and multi-phase flows with computational modeling, aiming at development of high-efficient energy-generating(or-saving) systems based on numerical simulations and experimental measurement(or visualization).
Major research field
Turbulence, Multi-phase flow, Flow-structure interaction, Numerical Method
Desired field of research
AI-based Fluid Mechanics, Compressible Flow, Multi-Phase Flow with Phase Change
Research Keywords and Topics
Turbulence, Flow Control for Drag Reduction and Flow-Induced Noise and Vibration
Numerical Simulations and Methods: DNS, LES, Two-Phase Flow, Immersed Boundary Method, Parallel Computing
Incompressible and Compressible Flows
Fluid-Structure Interaction Problem
Multi-Phase Flow with Phase Change
Research Publications
MORE· Journal of Fluid Mechanics / Flow-mediated interactions between two self-propelled flexible fins near sidewalls / Jeong, Young Dal; Lee, Jae Hwa, Park, Sung Goon / 2021-03
· Computers & Fluids / A modified monotonicity-preserving high-order scheme with application to computation of multi-phase flows / Ha, Cong-Tu; Lee, Jae Hwa / 2020-01
· Journal of Fluid Mechanics / Space-time formation of very-large-scale motions in turbulent pipe flow / Lee, Jae Hwa; Sung, Hyung Jin; Adrian, Ronald J. / 2019-12
· Physics OF Fluids / Wake transitions of flexible foils in a viscous uniform flow / Kim, Min Je; Lee, Jae Hwa / 2019-11
국가과학기술표준분류
- EA. 기계
- EA07. 에너지·환경기계시스템
- EA0799. 달리 분류되지 않는 에너지/환경기계시스템
국가기술지도분류
- 기타 분야
- 060000. 국가기술지도(NTRM) 99개 핵심기술 분류에 속하지 않는 기타 연구
녹색기술분류
- 고효율화기술
- 수송효율성 향상
- 331. 고효율 저공해차량기술
6T분류
- 기타 분야
- 기타 분야
- 070000. 위의 미래유망신기술(6T) 103개 세분류에 속하지 않는 기타 연구
