KOREASCHOLAR

Water-soluble substances like hydrogen fluoride, generated in semiconductor manufacturing, pose serious health and environmental risks, underscoring the need for effective capture devices. Vertical liquid capture devices help by aggregating and discharging hazardous substances with water, but their design can lead to backflow during abnormal operations, causing unintended releases and impacting efficiency and safety. This study seeks to improve a vertical liquid collection device’s containment performance by optimizing its geometry. The vertical wall was rotated at various angles and directions, and turbulent kinetic energy and streamline distribution were analyzed to assess vortex formation and flow characteristics. These structural modifications identify optimal conditions to control hazardous substance migration, offering insights for future pollutant removal device designs.

Abstract
1. 서 론
2. 연구 방법 및 실험 검증
    2.1 해석 형상 설계
    2.2 시험 조건 및 방법
    2.3 해석 조건 및 방법
    2.3 80A 검증 해석 결과
3. 최적 설계
    3.1 비정상 작동에 따른 해석 형상 설계
    3.2 시계 방향 해석 결과
    3.2 반시계 방향 해석 결과
    3.4 정상 작동시 최적 형상 해석 결과
4. 결 론
후 기
References

• 이상훈(Dept. of Mechanical and Aerospace Systems, Graduate School, Cheongju University) | Sang-Hoon Lee
• 김한수(Dept. of Mechanical and Aerospace Systems, Graduate School, Cheongju University) | Han-Su Kim
• 임동균(Dept. of Aeronautical and Mechanical Engineering, Cheongju University, Professor) | Dong-Kyun Im Corresponding author
• 신종수(ShinYang, Company) | Jong-Su Shin