- Author
- Kashef, A. | Benichou, N. | Lougheed, G. | Debs, A.
- Title
- Application of CFD Techniques for Modelling Fire Tests in Road Tunnels.
- Coporate
- National Research Council of Canada, Ottawa, Ontario
- Report
- NRCC-46772
- Book or Conf
- Computational Fluid Dynamics Society of Canada (CFD 2004), 12th Annual Conference. Proceedings. May 9-11, 2004, Ontario, Canada, 288-289 p., 2004
- Keywords
- computational fluid dynamics | tunnels | ventilation | fire tests | smoke control | smoke spread | scenarios
- Identifiers
- Solvent, a CFD model was used to model two ventilation scenarios using existing data; geometry and boundary conditions
- Abstract
- A research project is being conducted at the National Research Council of Canada (NRC) to evaluate the effectiveness of current emergency ventilation strategies to control smoke spread in the event of a fire in two road tunnels. The research study includes numerical and experimental phases. The numerical phase uses CFD models to study smoke ventilation in the tunnels. The experimental phase is used to calibrate and to partially validate the chosen CFD models and provide the necessary initial and boundary conditions. Solvent, a CFD model was used to model two ventilation scenarios using existing data. The current paper presents the efforts to validate the CFD model against onsite fire test measurements conducted in a 1.8 km road tunnel. The CFD model includes aerodynamically significant physical features of the tunnel and is customized to provide general roughness replicating the actual roughness in the tunnel.