Abstract
The study investigates trends in housing design in Nigeria and assesses the degree of adherence to thermal comfort requirement. It reveals that building designs mostly reflect uniformity despite the variety of climatic conditions in Nigeria. This is shown from the results of a survey and statistical analysis of the distribution of external thermal design features, including roofing, cladding, openings, shading, and layout and landscaping, for 1000 houses at sample locations in the three climatic regions of Nigeria. The analytical outcome shows the close similarity in housing designs between disparate climatic regions and the predominant typology of design features. The study further evaluates meteorological data, using the Oligyay Bioclimatic Chart developed in the 1950s, to approximate the average thermal comfort requirements for the regional climatic sequences of the hot-dry north, dry sub-humid middle belt and warm humid south of Nigeria, with Kano, Minna and Port Harcourt used as reference points of comparisons. The outcome of the analysis shows that a greater percentage of urban houses in Nigeria do not portray the regional comfort characteristics required for thermal comfort, which may account for the wasteful reliance on the use of fossil-fuelled generators in buildings for house cooling.
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References
Agajelu, O., Ekwueme, O. G., Obuka, N. S. P., & Gracefield, O. R. (2013). Life cycle cost analysis of a diesel/photovoltaic hybrid power generating system. Industrial Engineering Letters, 3(1), 9–30. Retrieved April 13, 2016, from www.iiste.org
Akande, O. K., & Adebamowo, M. A. (2009). Indoor thermal comfort for residential buildings in hot-dry climate of Nigeria. In Proceedings of Conference: Adapting to Change: New Thinking on Comfort (pp. 133–144). Cumberland Lodge, Windsor, UK.
ASHRAE. (2007). ASHRAE standard 90.1. Atlanta, GA: American Society of Heating, Refrigerating and Air-Conditioning Engineers.
Ayaode, J. O. (1973). The Seasonal incidence of rainfall and weather patterns in Nigeria. Lagos: Omotara Printing House.
Bob Manuel, H. (1990). Climatic index and conformability status of the humid tropics. Journal of Architectural Focus, 40(2), 31–33.
Centre for Science and Environment. (2002). A report on the independent inspection of fuel quality at fuel dispensing stations, oil tanks and tank Lorries [Online]. Retrieved April 11, 2016, from http://www.cseindia.org/html/cmp/air/fnladul.pdf
Department for Petroleum Resources (DPR). (2016). Fuel Scarcity and Adulteration [online]. Retrieved April 11, 2016, from www.dailytrust.com.ng/news
Giovanni, B. (1994). Passive and low energy cooling of buildings. New York: Van Nostrand Reinhold.
Giovanni, B. (1998). Climate considerations in building and urban design. New York: Van Nostrand.
Griffith, A., & Sidwell, A. C. (1995). Constructability in building and engineering projects. Basingstoke: Macmillan Press Ltd.
Higham, A., & Thomson, C. (2015). An evaluation of construction professionals’ sustainability literacy in North West England. In A. Raiden & E. Aboagye-Nimo (Eds.), Proceedings 31st Annual ARCOM Conference, 7–9 September 2015, Lincoln, UK. Association of Researchers in Construction Management, 417–426.
Higham, A. P., James, H., & Fortune, C. (2015). Life cycle costing: Evaluating its use in UK practice. Structural Survey, 33(1), 73–87.
Ibidapo-Obe, O., & Ajibola, O. (2011). Towards a renewable energy development for rural power sufficiency. In Proceedings of International Conference on Innovations in Engineering and Technology.
Ilyas, M., Pang, C. Y., & Wah, C. A. (1981). Effective temperature comfort indices for some Malaysian Towns. Singapore Journal of Tropical Geography, 2(1), 27–31.
Kamil, M., Sardar, N., & Ansari, Y. (2008). Experimental study on adulterated gasoline and diesel fuels India Chem. Engineering Journal, 89(1), 23–22.
Ladell, W. (1949). Nigeria; Water balance and heat load measurements. Ibadan: Raymond House.
Lawal, A., Akinbami, J., & Akinpade, J. (2012). Assessing effectiveness of passive design parameters on active energy consumption in warm-humid climate. Civil Engineering and Construction Technology, 3(4), 140–147. Retrieved May 10, 2016, from http://www.academicjournals.org/JCECT
Loh, E., Dawood, N., Dean, J., & Crosbie, T. (2009). Development of trade-off algorithm with AHP for building lifecycle cost and Environment Impact Assessment. In Proceeding of the 2nd International Conference on Whole Life Urban Sustainability and its Assessment, Loughborough, UK.
Ogunsote, O. O., & Prucnal-Ogunsote, B. (2002). Choice of a thermal index for architectural design with climate in Nigeria. Habitat International, 26(1), 1–19.
Omonij, A. G., & Matzarakis, A. (2011). Climate and bioclimate analysis of Ondo State, Nigeria. Meterologische Zeitschuit, 20(5), 531–539.
Omoruyi, S. O., & Idiata, D. J. (2015). The environmental and cost implication of fossil fuel generators. Nigeria International Journal of Emerging Technology and Advanced Engineering, 5(2), 25–29.
Osueke, C. O., & Ofondu, I. O. (2011). Fuel adulteration in Nigeria and its consequences. International Journal of Mechanical & Mechatronics Engineering IJMME-IJENS, 11(4), 34–40.
UNDP. (2000). Climate Change Country Profiles Nigeria. Tyndall Centre for Climate Change Research. Retrieved May 7, 2016, from http://country-profiles.geog.ox.ac.uk
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Amadi, A., Higham, A. (2017). Fossil Fuel Reliant Housing in Nigeria: Physio-climatic Regionalism as an Energy/Cost Efficient Perspective to Providing Thermal Comfort. In: Dastbaz, M., Gorse, C., Moncaster, A. (eds) Building Information Modelling, Building Performance, Design and Smart Construction. Springer, Cham. https://doi.org/10.1007/978-3-319-50346-2_11
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DOI: https://doi.org/10.1007/978-3-319-50346-2_11
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