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Turbulence in Hydro/Aerodynamics for Engineering-Oriented Research & TechnologY Lab.

Research

Research

Projects

  • Analysis and Improvement of Aero-thermal Dynamics Related to Fire Fighting Unmanned Aerial Vehicles (소방용 무인항공기 열공력 해석 및 성능 향상 연구), Funded by GIST, 2019-2020

  • Active Flow Control Actuators for Next-Generation Rotorcraft Main-Rotor Blades (차세대 로터 블레이드 적용 능동 유동 제어 기초 연구), Funded by ADD (Agency for Defense Development) of Korea, 2017 – 2020

  • Combustion-Powered Actuation for Flow Separation Control (유동 박리 억제를 위한 연소기반 제어기 개발), Funded by NRF (National Research Foundation) of Korea, 2017 – 2020

  • Transition Prediction and Control for High-Speed Boundary Layers (고속 경계층 천이 예측 및 제어 기법 개발), Funded by NRF of Korea, 2017 – 2020

  • HD Haptics Technology for Hyper Reality Contents (HD 촉감 기술 기반 초실감 콘텐츠 재현 기술 개발), Funded by IITP (Institute of Information & Communications Technology Planning & Evaluation) of Korea, 2017 – 2019

  • Development of Research Environment for Theoretical and Computational Studies on Fluid Dynamics (이론 및 전산유체역학 연구 환경 개발), Funded by GIST, 2016 – 2018

  • Advanced Fluid Dynamics (고급유체역학), Funded by GIST, 2017

  • Flow Separation on Suppression with Combustion-Powered Actuation, HPC resource from KISTI (Korea Institute of Science and Technology Information), 2017

  • Prediction of Boundary Layer Transition Using Large-Eddy Simulation and the Boundary-Layer Stability Theory, HPC resource from KISTI, 2017

  • A Unified Transition-Turbulence Model for High-Fidelity Rotorcraft Simulation, Funded by U. S. Army, 2015-2017

  • Large-Eddy Simulation (LES) for Next-Generation Turbine Design, Funded by UTRC (United Technologies Research Center), 2015-2016

  • Boundary-Layer Forcing Technique for LES, Funded by UTRC, 2015

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