Earticle

초록

영어

Aerial work platforms (AWPs) are specialized vehicles designed for tasks at elevated heights, and are widely used in various environments such as construction sites, road maintenance, and high-altitude operations. In this study, computational fluid dynamics (CFD) analysis was conducted to investigate the airflow field, drag force, and torque characteristics around an AWP. The simulation results showed that the overall airflow velocity decreased as it passed over the vehicle and boom, while it increased locally between the vehicle and the boom, and beneath the work platform. The drag force and torque acting on each component were highly sensitive to changes in boom angle due to variations in airflow. As the boom angle increased, the drag force increased by approximately 20 times, and the torque by up to 108 times. These findings provide fundamental data for establishing design criteria to enhance the structural stability and aerodynamic performance of aerial work platforms.

목차

Abstract
1. 서론
2. 전산해석
2.1 지배방정식
2.2 해석모 델 및 격자시스템
2.3 경계조건
3. 결과 및 토론
3.1 붐 각도에 따른 주변 유동장 변화
3.2 고소작업차 붐 주변에서의 유체역학특성분석
4. 결론
후기
References

키워드

저자

• 박다인 [ Da-In Bak | Ph, D. program student, Dept. Mechanical Engineering, Wonkwang University ]
• 이상호 [ Professor, Dept. Mechanical Engineering, Wonkwang University ] Corresponding Author
• 변상호 [ Sang-Ho Byoun | Master program student, Dept. Mechanical Engineering, Wonkwang University ]

참고문헌

발행기관

간행물

표지보기 관심저널 등록

• 간행물명

  한국기계항공기술학회지(구 한국기계기술학회지) [Journal of the Korean Society of Mechanical and Aviation Technology ]

• 간기

  격월간

• pISSN

  1229-604X

• eISSN

  2508-3805

• 수록기간

  1999~2026

• 등재여부

  KCI 등재

• 십진분류

  KDC 550 DDC 620