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Sylwia Wojnarska 12th July 2012. PS Ventilation Duct simulation. PS Ventilation. Duct in the ceiling – mesh and boundary conditions. Geometry – half of a crossection of a duct – symmetry 1/16 of the whole tunnel – 39m Hole Ø 0,05m, every 0,5m Mass flux – 30000 m³/h
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Sylwia Wojnarska 12th July2012 PS Ventilation Ductsimulation 12th July 2012
PS Ventilation 12th July2012
Duct in the ceiling – mesh and boundary conditions • Geometry – half of a crossection of a duct – symmetry • 1/16 of the whole tunnel – 39m • Hole Ø 0,05m, every 0,5m • Mass flux – 30000 m³/h • Surface 2,6m x 0,55m • Velocity in the inlet – 2,91 m/s • Viscosity model K-ɛ • 1mln elements 12th July2012
Duct in the ceiling –results • Covergence monitors: • Mass balance – inlet+outlet = 0 • Pressure in the inlet - stable • Almost uniformdistribution • The same mass flux every hole • The same velocity every hole • No pressure drop along the duct • Only pressure drop in the holes Mass distribution 12th July2012
Duct in the ceiling –results 12th July2012
Duct in the ceiling –results 12th July2012
Duct on the bottom – mesh and boundary conditions • Geometry – whole crossection of the duct • 1/16 of the whole tunnel – 39m • Hole Ø 0,05m, every 0,5m • Mass flux – 30000 m³/h • Surface 0,64 m² • Velocity in the inlet – 5,1 m/s • Viscosity model K-ɛ • 4mln elements 12th July2012
Duct on the bottom–results • Almost uniformdistribution • The same mass flux every hole • The same velocity every hole • No pressure drop along the duct • Only pressure drop in the holes • Covergence monitors: • Mass balance – inlet+outlet = 0 • Pressure in the inlet - stable 12th July2012
Duct on the bottom–results 12th July2012
Duct on the bottom–results 12th July2012
Thank you for attention! Any questions? Sylwia Wojnarska 12th July2012