A case study on solar chimney-assisted ventilation for residential building in India.

Purpose – The ventilation and air-conditioning systems consume the highest energy in the building sector. The proper ventilation in residential buildings through the passive solar systems can substantially reduce the energy consumption in building sector. The paper aims to identify the application of wind shaft as a solar chimney, a passive ventilation system and evaluated the performance of the system. Design/methodology/approach – The paper investigated the performance of the solar chimney with size, absorber area 9.76 m2 and height 4.57 m, based on experimental data recorded in the city, Kota (25°10′N, 75°52′E), India. Solar data were recorded using the state of the art weather station situated very closer to the residence. The air velocity and temperatures in the chimney and in the building are recorded in data logger. A simple mathematical model was used for the evaluation of the air change per hour (ACH) in the residential building. Findings – From the analysis of weather data, it was found that the ambient temperature varies linearly with the solar irradiance. Air change rate of 5.7-7.7 can be achieved from this solar chimney, in peak summer season which is appropriate and meets the ventilation requirement as per BIS (Handbook of Functional Requirements of Buildings – 1987). Originality/value – The air temperature increases from bottom to top in the solar chimney. The solar irradiance dictates the chimney air temperature, and both are in step with each other. It shows that the solar chimney is working in tune with the solar radiation availability. In peak summer, it provides sufficient ACH to the tune of 3-6. Resulting wind shaft can act effectively as a solar chimney. It is a feasible solution for the ventilation needs and it improves the looks of any residential building. [ABSTRACT FROM AUTHOR]