943.
This study reports the results of a numerical investigation of three-dimensional turbulent buoyant recirculating flow within
rooms with heated obstruction. The study involves the solution of partial differential equations for the conservation of mass,
momentum, energy, concentration, turbulent energy and its dissipation rate. These equations were solved together with algebraic
expressions for the turbulent viscosity and heat diffusivity using k-ε turbulence model by performing simulations on FLUENT
6.3. The CFD method was validated via comparing with the available experimental data. A comparison with experimental results
shows good agreement. This means that the present computer code has a good capability to simulate 3D airflow and effect of
obstruction within room. The present study demonstrates the flow behavior, thermal distribution and CO
2 concentration inside the room in the presence of heat flux obstruction. Two different configurations of ventilation system
have been studied. Mixing and Displacement ventilation system have been used in two geometries depending on location of opening
inlet. The ventilation effectiveness for heat removal (E
T) is used to evaluate the indoor climate and average temperature is an important parameter in designs the ventilation systems.
Two notable points are presented; first, mixing ventilation is depending on throw of jet. CO
2 concentration and temperature distribution have been effected in upper zone more than occupied zone with presence the obstruction.
Second notable points are presented; in displacement ventilation buoyancy effect is considerable. Vertical temperature gradient
above the obstruction implies that both fresh air and CO
2 concentration.
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