THEORETICAL EVALUATION OF EVAPORATIVE COOLING POTENTIAL USING FEASIBILITY INDEX MODEL
Ibrahim, U.H1. and Ibrahim, A2.
1 Department of Mechanical Engineering, Federal Polytechnic Mubi, Adamawa
2Department of Physics, Adamawa State University, Mubi, Adamawa State, Nigeria
Email: Ibrahim U.H. E-mail: heldabuk@yahoo.com
Abstract: Thermal comfort has a great influence on the productivity and satisfaction of indoor building occupants. In some developing countries like Nigeria, poverty and epileptic power supply are the twin problems impeding people from the use of refrigerated-based air conditioning systems to achieve thermal comfort. Furthermore, the use of some refrigerants has adverse effect on the environment. Evaporative cooling systems are viable options for achieving thermal comfort especially in hot and dry climates. These systems, apart from their low cost and power requirement, they are environmentally friendly. This study attempts to determine the viability of using evaporative cooling to achieve thermal comfort in Mubi-South using the feasibility Index model. The computed feasibility indices of the study area in the months of January through December are – 0.08, – 1.62, 4.04, 13.09, 27.06, 17.36, 18.39, 18.42, 18.24, 3.12, – 0.12 and – 0.28 respectively. Employing the concept of the feasibility index (FI) model reveals that comfort cooling can be achieved in the months of January, February, March, October, November and December while relief cooling can be achieved in the month of April. The model also reveals the unsuitability of evaporative cooling in the months of May, June, July, August and September. Considering both the comfort and the relief cooling periods based on the FI model, evaporative cooling can therefore be a suitable alternative to refrigerated-based air conditioning systems in Mubi-South and other areas with similar climatic characteristics.