Research for the review of the possibility of building advanced naval vessels (21년 차세대 첨단함정 건조가능성 검토 연구용역(Ⅳ)), funded by Republic of Korea Navy, 2021, as Principal Investigator
Analyzing Towing Tank Model Test Results and Seakeeping Performance of High Speed Amphibious Armored Vehicle System (고속수륙양용체계 축소모델 수조시험 및 해상운행성 분석), funded by the Agency for Defense Development, 2019 – 2021, as Principal Investigator
추진기를 포함한 잠수체의 유체력 추정 코드 개발 (OpenFOAM), funded by Daewoo Shipbuilding and Marine Engineering Co., Ltd., 2019 – 2021, as Principal Investigator
Development of a strategy for optimal power production from a 100kW class Horizontal Axis Tidal Stream Turbine System (100kW급 수평축 조류발전 터빈운용의 최적화 기법개발), funded by National Research Foundation of Korea, 2017-2021, as a Principal Investigator
Evaluation of Propeller Shaft Force Characteristics in Off-desing Condition (Off-design 조건에서의 프로펠러 축기진력 특성 평가), funded by Hyundai Heavy Industries, 2019 – 2020, as Principal Investigator
Development of Propeller Cavitation Performance Analysis Module using OpenFOAM(OpenFOAM을 이용한 프로펠러 캐비테이션 성능 해석 모듈 개발), funded by Daewoo Shipbuilding and Marine Engineering Co., Ltd., 2019 – 2020, as Principal Investigator
Development of Surplus Hydro Power Harvesting and Monitoring Platform in Water Piping System (수배관 미활용 에너지를 활용한 전력 생산 및 제어관리 시스템 개발), funded by Ministry of Trade, Industry and Energy, 2016 – 2019, as Principal Investigator
Towing Tank Model Tests for Assessing the Stability of MMB (MMB 성능 및 안정성 평가 시뮬레이션을 위한 수조모형시험), funded by Korea Electric Power Corporation, 2018 – 2019, as Principal Investigator
Study of Damaged Ship Maneuverability Based on Towing Tank Tests and Mathematical Maneuvering Models, Naval International Cooperative Opportunities in Science and Technology (NICOP) funded by the Office of Naval Research, US Navy, 2016 – 2019, as Principal Investigator
Study on the Maneuvering Mathematical Modeling of a Dynamic Simulation Software for the Propulsion System of Naval Vessels (함정 추진체계 동적 시뮬레이션 SW용 함정 수학모델에 관한 연구), funded by Agency Defense Development, 2018 – 2019, as Principal Investigator
Study on the Maneuverability of an AUV for Docking by Towing Tank Model Tests (수조 모형 시험을 통한 도킹용 무인잠수정 조종성능 해석 위탁연구), funded by Hanwha Corporation, 2018-2019, as Principal Investigator
Analysis Methodology for Free Running of Damage Ship Maneuverability Using Computational Fluid Dynamics (전산유체역학을 이용한 자유항주 중인 손상 선박의 조종 성능 해석), funded by National Research Foundation of Korea , 2016 – 2019, as Principal Investigator
Development of Open Source CFD Solver for the Virtual Captive Model Test (가상구속모형시험 오픈소스 CFD 솔버 개발), funded by Samsung Heavy Industries, 2019, as Principal Investigator
Development and Validation of High-Fidelity Flow Simulation around Vessels (고충실도 함정 주위 유동시뮬레이션 및 검증 기술 개발), funded by the Ministry of Science, ICT and Future Planning , 2016 – 2019, as a Principal Investigator
Computational Fluid Dynamics Analysis and Towing Tank Tests for the Propulsive Performance of a Submarine Model (모의 잠수함 저항 자항성능 전산유체해석 및 모형시험), funded by the Agency for Defense Development, 2018-2019, as Principal Investigator
CFD를 활용한 추진 프로펠러 기진력의 해석, funded by Defense Acquisition Program Administration, 2017 – 2018, as Principal Investigator
Development of Fluid Performance Analysis and Motion Control Technology (무인선 유체성능 해석 및 자세 제어 기술 개발), funded by Ministry of Oceans and Fisheries, 2017 – 2018, as Principal Investigator
Development of Numerical Simulator for Environmental Load on Ship and Offshore in Polar Region (극지환경 선박 및 해양플랜트용 환경하중해석 시뮬레이터 개발), funded by the Ministry of Trade, Industry and Energy, 2015 – 2018, as Principal Investigator
광개토-III Batch-II 예인소나송수신장비 예인몸체 예인안정성 검증, funded by Agency Defense Development, 2018, as Principal Investigator
(DSME 해양공학센터 4차년도) SNUFOAM을 이용한 잠수체 및 수상선의 조종 미계수 추정연구, funded by Daewoo Shipbuilding & Marine Engineering Co, Ltd., 2017-2018, as Principal Investigator
Analyzing Towing Tank Model Tests Results and Manufacturing Scaled Models of Amphibious Armored Vehicle System (수륙양용체계 축소모델 제작 및 수조 시험/분석), funded by the Agency for Defense Development, 2017-2018, as Principal Investigator
Automatic Clean up Technology for 3 Dimensional CAD Geometry (3차원 CAD 형상 clean up 자동화 기술), funded by Small and Medium Business Administration, 2017 – 2017, as Principal Investigator
CFD Analysis for Exploratory Development of KSS-III Batch-II (장보고 – III Batch – II 탐색개발 CFD 해석), funded by Daewoo Shipbuilding and Marine Engineering Co., Ltd., 2016 – 2017, as Principal Investigator
Advanced Naval Vessels Research Laboratory(Level 2)/ Research for Estimating method of Resistance and Noise for Advanced Naval Vessels (차세대 함정 첨단 함형 특화연구실(2단계)/저자항 미래 함정의 저항 및 소음 예측 기법 연구), funded by the Ministry of National Defense, 2015 – 2017, as Principal Investigator
Hydrodynamic Forces and Cavity Characteristics of a Supercavitating Underwater Vehicle with Control Plane (초공동 상태의 운동체/제어판 작용 유체력 및 공동 특성 연구), funded by the Ministry of National Defense, 2014 – 2017, as Principal Investigator
Analysis Methodology for Free Running of Damage Ship Stability Using Computational Fluid Dynamics (전산유체역학을 이용한 자유항주 중인 손상상태 선박의 안정성 해석), funded by the Ministry of Science, ICT, and Future Planning, 2013 – 2016, as Principal Investigator
Experimental study on Safe-Return-To-Port of a Damaged Ship for CFD validation (CFD 검증을 위한 손상상태 선박의 안전귀항에 관한 실험적 연구), Naval International Cooperative Opportunities in Science and Technology (NICOP) funded by the Office of Naval Research, US Navy, 2013 – 2016, as Principal Investigator
EEDI Verification Through Model Test Procedures and CFD Simulations, funded by American Bureau of Shipping, 2013, as Principal Investigator
Advanced Naval Vessels Research Laboratory (차세대 함정 첨단함형 특화연구실), funded by the Ministry of Defense, 2012 – 2017
Performance Test of Unmanned High Speed Vehicle (무인선 고속유체 성능시험), funded by the Ministry of Land, Transport, and Maritime Affairs, 2012 – 2016, as Principal Investigator
Development 50-kt class high-speed craft hull form and powering estimation formula through towing tank experiments (50노트급 고속정 선형 개발 및 모형 시험을 통한 마력 계산방법 연구), funded by the Ministry of Defense, 2012, as Principal Investigator
Development and utilization of fluid dynamic simulation software for naval architecture and ocean engineering education and research (조선해양 교육 및 연구를 위한 시뮬레이션 소프트웨어 개발 및 활용 연구), funded by the Ministry of Education, Science, and Technology, 2011 – 2015, as Principal Investigator
Development of multi-phase flow simulation program for the design of high value-added ships (고부가가치 선박 설계를 위한 다상유동 시뮬레이션 프로그램 개발), funded by Small and Medium Business Administration, 2011 – 2012, as Principal Investigator
Development and application of a flow analysis program based on the open source CFD code, OpenFOAM (소스 공개 CFD 코드 OpenFOAM을 기반으로 한 선체 및 프로펠러 주위 유동해석 프로그램 개발 및 적용), funded by Hyundai Heavy Industries, 2011 – 2012, as Principal Investigator
Measurement of the local flow around the propeller and rudder using towed two-dimensional particle image velocimetry (예인수조용 2차원 입자영상유속계를 이용한 프로펠러 및 타 주위 국부유동 계측), funded by Samsung Heavy Industries, 2011, as Principal Investigator
Research and development for simulation platform for applications of new FRP manufacturing techniques including infusion and RTM (인퓨전, RTM 등 FRP 신공법 적용을 위한 시뮬레이션 기반구축에 관한 연구개발), funded by the Ministry of Knowledge Economy, 2010 – 2011
Study of Damaged Ship Stability – 6DOF FSI Experimental Database (선박의 손상상태 안정성 연구 – 6자유도 FSI 실험 데이터베이스 구축), funded by the Ministry of Education, Science, and Technology, 2010 – 2012, as Principal Investigator
Floating Oscillating Type Wave Energy Power Generation Technology Development and Verification (부유식 진자형 파력발전 기술개발 및 실증), funded by the Ministry of Land, Transport and Maritime Affairs, 2010 – 2013
Development of multi-functional 5-axis milling station for production of the full-scale leisure boat (레저 선박 제작용 초대형 다기능 5축 삭성기 개발), funded by the Ministry of Knowledge Economy, 2009 – 2012
Development of a performance analysis method for the yacht sail system using fluid-structure interaction technology (유체-구조 연성해석에 의한 복합형 요트 세일의 성능해석법 개발), funded by the Ministry of Education, Science, and Technology, 2009 – 2012
Study of analysis technique for 6DOF motion (6DOF 해석 기술), M3CFD Research Center funded by the Ministry of Education, Science, and Technology, 2009 – 2016
Study on the cavitator design and analysis of super-cavitating underwater vehicle (초공동 발생 캐비테이터 설계/해석에 관한 연구), Super-Cavitating Underwater Vehicle Research Center funded by the Agency of Defense Development, 2009 – 2014
Experimental study of damaged ship stability for CFD validation (CFD 검증을 위한 손상상태 안정성에 관한 실험적 연구), Naval International Cooperative Opportunities in Science and Technology (NICOP) funded by the Office of Naval Research, US Navy, 2009 – 2012, as Principal Investigator
Technology development of propeller and rudder for a ship with low vibration and high efficiency (저진동-고효율 추진기 및 방향타 개발 기술), funded by the Ministry of Knowledge Economy, 2009 – 2011
Development of standardized S/W system for the integrated design of tidal current turbines (조류발전용 터빈 통합설계용 표준화 S/W 시스템 개발), funded by the Ministry of Knowledge Economy, 2009 – 2012
Tidal stream energy conversion turbine performance analysis (조류발전 터빈 성능해석), Tidal Stream Energy Research Center funded by the Ministry of Knowledge Economy, 2009 – 2012
Development of the model-scale effective wake prediction and its extension to full-scale (모형선 스케일에서의 유효반류분포 예측방법 개발 및 실선 스케일로의 확장방법 연구), funded by Hyundai Heavy Industries, 2009 – 2011, as Principal Investigator
Robust design of multi-physics problems in marine engineering (조선해양공학에서 다중물리문제의 강건설계), World Class University project funded by the Ministry of Education, Science, and Technology, 2008 – 2013, as Principal Investigator
Study on the design technology of hydro-elastic propulsors made of composite materials (탄성변형을 고려한 복합재 추진기 설계기법 연구), funded by Defense Acquisition Program Administration, 2008 – 2012
Experimental study on the resistance performance enhancement through anti-sinkage appendages (선체부가물을 이용한 연료 저감장치 연구), funded by STX Shipbuilding, 2008 – 2009, as Principal Investigator
차기 군수지원함사업 개념 설계 기술지원 용역, funded by Defense Acquisition Program Administration, 2008, as Principal Investigator
함정 기본설계 업체선정 평가기준 연구용역, funded by Defense Acquisition Program Administration, 2008, as Principal Investigator
Development and validation of ship self-propulsion simulator (선박의 자항성능 추정을 위한 시뮬레이터의 개발 및 검증), funded by Korea Science and Engineering Foundation, 2008 – 2010, as Principal Investigator
Leak simulation in the LNG carrier cargo containment system using CFD (CFD를 이용한 LNG선 화물창의 방벽 내 Leak Simulation), funded by Samsung Heavy Industries, 2008, as Principal Investigator
Hull form development and performance evaluation of cruise ships with podded propulsors (POD 추진기 장착 크루즈선의 선형개발 및 성능평가 기술개발), funded by Daewoo Shipbuilding and Marine Engineering, 2008 – 2010, as Principal Investigator
Local sloshing impact analysis for LNG tank walls using CFD-FEA coupled tools (CFD-FEA 연계 툴을 이용한 LNG 탱크 슬로싱 국소 충격력 해석), funded by Lloyd’s Register Educational Trust (LRET) through LRET Research Center at Seoul National University, 2008 – 2010, as Principal Investigator
Study of Fundamental Aspects of Damaged Stability of Ships – Understanding of Water-on-Deck Events (선박의 손상상태 안전성 향상을 위한 기초연구 – 갑판침수현상의 이해), funded by Korea Research Foundation, 2007 – 2008, as Principal Investigator
Development of high-lift control devices for ships (선박용 고양력 날개장치의 성능검증 및 최적향상 도출), funded by Korea Science & Engineering Foundation through Ship Flow Control Lab at Inha University, 2007 – 2012
Hydrodynamic analysis tool development for under-water vehicles (수중함의조종성능해석), funded by Daewoo Shipbuilding & Marine Engineering Co., Ltd., 2006 – 2008
Architectural Concepts & Hydrodynamics Technologies for High Speed Sealift to Austere Port, Subtask B: Computational Approach and Hydrodynamics Tools, funded by the Office of Naval Research, 2005 – 2007
Computational hydrodynamics CFD code development for surface ship boundary layer, wake, and wave field, funded by the Office of Naval Research, 1992 – 1999
