유속의 변화에 따른 오일펜스 만곡부 후면의 속도장과 압력장, 와도 및 난류 강도를 계측한 PIV 실험의 결과 유속이 증가함에 따라 유동 경계역의 후면부에서의 흐름 방향이 전면부의 흐름방향에 가까워지는 현상이 나타났고, 압력 분포의 양상이 달라졌으며 난류도 더욱 불규 칙적인 형태로 나타났다. PIV 실험과 동일 조건으로 수행한 CFD 해석 결과, 후류의 유동 패턴이 0.3m/s이하의 저속인 경우는 PIV 실험 결과 와 유사하게 나타났으나, 유속이 0.4m/s일 때는 오일펜스 자체의 유연성으로 인해 다소 차이가 나타났고, 오일펜스 하단의 압력차로 인한 불규 칙한 난류가 수면까지 영향을 주는 것 같았다.

With PIV measurements and CFD simulations, we first examined fluid kinematic characteristics around oil fences and then investigated flow patterns passing through its curved section with current speed. PIV measurements of the velocity field, pressure field, vorticity, and turbulent intensity in the rear of curved section of an oil fence with current speed showed that the flow directions in the rear of flow boundary area were similar to those in the front of it. As the current speed increased, the patterns of pressure distribution were changed, and the turbulent flow became more irregular. CFD simulations under the same conditions as the PIV tests showed that the flow patterns of the wake were similar to those by PIV tests in speed of 0.3 m/s and less, but were distinctively deviated from those in 0.4 m/s due to the flexibility of the oil fence, which was not properly taken care of in CFD modeling.

• 김태호(전남대학교 해양기술학부) | Tae Ho KIM (School of Marine Technology, Chonnam National University)
• 장덕종(전남대학교 해양경찰학과) | Duck Jong JANG (Department of Maritime Police Science, Chonnam National University) Corresponding author
• 나선철(해양환경관리공단) | Sun Chol NA (Korea Marine Environment Management Corporation)
• 배재현((주) 금영) | Jae Hyun Bae (Kum Young Co., Ltd)
• 양경욱(전남대학교 해양기술학부) | Kyong Uk YANG (School of Marine Technology, Chonnam National University)
• 김대안(전남대학교 해양기술학부) | Dae An KIM (School of Marine Technology, Chonnam National University)