BUILDINGS
Projects/Buildings
Data Center
In the project, flow and heat transfer events in a 240 kW data center hall were examined by CFD analysis.
The hall is cooled by CRAC units and the flow is simulated above and below the raised floor, the data center cooling efficiency was determined.
Data Center Roof, Device Layout
In the project, the interaction of the devices (cooling systems) on the roof of a data center with each other was examined by CFD analysis.
It has been observed whether the hot exhaust gases are absorbed by other devices under the influence of the prevailing wind, and whether hot islands are formed. The air inlet temperatures of the devices were calculated.
Pedestrian Comfort
In the project, the air flow around the shopping mall, office and residence blocks due to the wind effect has been examined by CFD analysis.
In particular, air speeds and comfort parameters in the area where the outdoor pool is located were calculated and the effects of different wind curtain designs on pedestrian comfort were compared.
Indoor Parking Ventilation
In the project, an indoor parking garage with jet fans for emergency ventilation was analyzed by CFD analysis, and air speeds were calculated; active, passive zones, jet fan capacities and efficiency of jet fan placement were determined.
Hospital Room
In the project, air flow and heat transfer events in a hospital room were investigated by CFD analysis.
Room The air velocity, temperature distribution and thermal comfort parameters in the interior were calculated and the efficiency of the ventilation system was determined.
Factory Packing Area, Finished Product Fire
In the project, the air/smoke flow that will occur in the event of a fire of 3.5 MW in the finished product packaging area in a factory It was examined with CFD analysis, the temperatures to occur were calculated, the smoke and temperature distribution that changes over time and the effectiveness of the smoke exhaust flaps were reported.
Exposure of the steel columns carrying the platform and the roof in the packaging area with the heat dissipation caused by the fire. they will stay temperatures were calculated and it was examined whether there would be a risky situation in terms of building safety.
Factory Production Area, Product Fire
In the project, a In the event of a 3.5 MW fire in the production area of the factory, the air/smoke flow that will occur was examined with CFD analysis, the temperatures that would occur were calculated, the smoke and temperature distribution that changed over time, and the effectiveness of the smoke exhaust flaps were reported.
With the heat dissipation caused by the fire, the roof of the production area exposed steel columns they will stay temperatures were calculated and it was examined whether there would be a risky situation in terms of building safety.