Simulation of Thermal Comfort of a Residential House

In hot and humid climates thermal comfort can become a problem to the occupants of many residential buildings especially when they are not equipped with air - conditioning system. This paper presents out comes of an ongoing research work to investigate thermal comfort level in a naturally ventilated residential house in Malaysia using computational fluid dynamics (CFD) method. Actual measurements of the temperature distribution, relative humidity and air flow pattern were conducted. CFD simulations on the model of the house allow us to visualize the temperature distribution and air flow pattern and velocity in the house. The thermal comfort in the house was found to be well outside the limits specified by ASHRAE standards. CFD simulation was used to investigate the effects of using a ceiling fan installed in the middle of the hall section and rotating at 150 RPM. It was found that the fan produced swirling flow pattern in the hall section resulting in a more uniform temperature distribution inside the house. However, there is no significant improvement in the thermal comfort level in the house. Results of CFD simulations also show that the use of small extractor fans installed on the front and back walls has no significant effects on the thermal comfort level in the house. Although the mechanical ventilation devices did not help improve the thermal comfort in the house being studied, the CFD simulation results can be used by building designers and engineers to further improved the level of thermal comfort in residential houses in hot and humid climates that are naturally ventilated.