Thermal Comfort in a Residential House in Kampala
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Date
2023
Journal Title
Journal ISSN
Volume Title
Publisher
Journal of Civil, Construction and Environmental Engineering
Abstract
Global warming and climate change has been a challenge in the last decades. Buildings are major contributors to
energy consumption. This is due to the rise in human comfort needs and services. The residential sector consumes a significant
amount of energy worldwide. A NZEB strategy emphasizes closing the gap between energy demand and renewable energy
supply. Despite some of the roles that NZEBs significantly contribute to smart cities on the energy efficiency, the potential
contribution of NZEB to the residential sector of Uganda has not been documented in literature. The objective of this study
was to develop a thermal comfort model in a residential house through an envelope design. CBE tool was used and results
indicate; PMV with elevated air speed of residential houses during resting hours in Kampala; at night: -0.75. DBT as 24.1°C,
PPD as 17%, the Cooling effect as 2.7°C and SET = 26.3°C. The study realized factors to be considered while building like; air
temperature, average radiant temperature, air speed, air humidity. The model developed in this study enables a building to heat
up during cold hours and cool down during hot hours by the help of the water pool collected during rainy days. This water
cools down the house during the day time while absorbing heat that can be released during the night hours that are somehow
cold in Kampala. However, if this isn’t considered, then heat pumps have to be employed to pump heat into rooms to reduce
heating in rooms. Recommendations should be put in raising thick walls and ceilings to maintain building temperatures.
Description
Keywords
Net Zero, Energy, Buildings, Predicted Mean Vote
Citation
Simon Peter Wafula, Obed Kamulegeya, Andrew Kasumba Buyondo, Solomon Mutebi, Isaac Ogwang, Michael Mutambo, James Kateu. Thermal Comfort in a Residential House in Kampala. Journal of Civil, Construction and Environmental Engineering. Vol. 8, No. 1, 2023, pp. 1-14. doi: 10.11648/j.jccee.20230801.11