터널과지하공간 (Tunnel and Underground Space)

  • 제6권1호
  • /
  • Pages.64-68
  • /
  • 1996
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  • 1225-1275(pISSN)
  • /
  • 2287-1748(eISSN)
한국암반공학회 (Korean Society for Rock Mechanics and Rock Engineering)
권호 표지

터널내 환기용 덕트 주위의 유체유동 해석

Analysis of Fluid Flow around Ventilation Ducts inside a Vehicle Tunnel

  • 서용권 (동아대학교 기계공학과) ;
  • 이창우 (동아대학교 자원공학과) ;
  • 최윤환 (동아대학교 기계공학과 대학원 과정)
  • 발행 : 1996.03.01
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초록

Analyzed in this paper is fluid flow in the region near the exhaust and blower ports of the ventilation ducts inside a vehicle tunnel. Theoretical analysis shows that prediction of the energy loss in this region is important for designing the ventilation system. A finite-difference numerical model for the two-dimensional turbulent flow field was used to obtain the flow solution as well as the energy loss. It was shown that the blower-nozzle angle ($\beta$) had an important role in establishing both the pressure gradient and the energy loss, while the effect of the distance between two ports on them was not so significant.

키워드

참고문헌

  1. 한국자원공학회지 v.30 갱내 디젤차량 배기물질 확산모델링 방법간 비교 연구 이창우
  2. 도로 터널 환기설비 지침 일본 도로협회
  3. 한국자원공학회지 v.32 지하공간내에서 수치 해석에 의한 부유분진 농도 측정(1)-정상 상태하에서 항도기류의 유동해석 홍웅기;정태섭;박흥민
  4. Tunnelling and Underground Space Technol. v.4 Dispersion of Carbon Monoxide from a Vehicular Tunnel with the Exit Located along a Hillside Chow, W. K.
  5. J. Environ. Engnrg ASCE v.117 Prediction of CO Level near Vehicular Tunnel with Waiting Queue Chow, W. K.
  6. 6th Int. Symp. Aerodyn. Ventilation Vehicle Tunnels Environmental Justification of a Vehicular Tunnel Constructed in Residential Area Chow, W. K.;Chan, W. T.
  7. 2nd Int. Symp. Aerodyn. Ventilation of Vehicle Tunnels Application of the Longitudinal Ventilation System for Long Tunnels Konda, T.;Mizutani, T.
  8. Aerodyn. Ventilation of Vehicle Tunnels Characteristics of Blowing and Exhaust Nozzles Used in a Longitudinal Ventilation System Yoshizawa, I.;Komatsu, K.;Ohta, Y.;Hagiwara, K.
  9. Mathematical Models of Turblence Spalding, D. B.;Launder, B. E.