Research Article
BibTex RIS Cite

Energy Demand Reduction for Nigeria Housing Stock Through Innovative Materials, Methods and Technologies

Year 2023, Volume: 8 Issue: 3, 216 - 232, 03.10.2023
https://doi.org/10.47481/jscmt.1184338

Abstract

Energy utilisation has recently become a highly sought-after commodity on a global scale. This situation is not limited to Nigeria, where the national grid’s supply of electricity has been severely inadequate. This has hampered the country’s ability to meet the mounting needs of its large population and expanding economy. Aside from the global challenges of rising energy costs and environmental disasters, a number of factors such as a lack of interest in indigenous building technologies and materials have contributed to the Nigerian construction industry’s slow pace of meeting energy demand and achieving energy efficiency. This study investigates the possibility of achieving energy conservation through innovative materials, methods, and technology to increase energy efficiency and minimise energy demand in Nigeria’s residential housing. The objective is to determine the variables that influence energy usage in residential house design, select methods and technologies to reduce energy demand, and assess the best materials and processes. A quantitative approach to data collection was used by distributing questionnaires to respondents in the Minna metropolis. A hundred and forty (140) question- naires were distributed, and 117 of them were returned. Secondary data were obtained from literature reviews, journal articles, and conference papers. According to the findings, the most energy efficient residential buildings would result from the appropriate use of innovative ma- terials, methods, and technology to reduce the energy demand of the building. In order to decrease energy demand, the study suggests that built environment professionals should focus largely on changing energy-consuming devices and their end uses for energy efficiency. It concluded that, in order to reduce overlap between the applications of these elements and bet- ter meet the needs of building occupants in terms of energy usage in Nigeria, energy demand should be considered from the design stage.

References

  • IEA (International Energy Agency) (2021). Global Energy Review 2021: Assessing the effects of economic recoveries on Energy demand and CO2 emission in 2021.
  • Irfani, F.U. M., Hooi, H. L., Djoni, H., Kenny, D. I., & Ramadani, P. (2022). Population density and energy consumption: A study in Indonesian provinces. Heliyon, 8, (9) 2405-8440. [CrossRef]
  • Yusuf, A, & Akande O. K. (2023). Drivers, enablers, barriers and technologies (debt) for low-energy public housing delivery in Nigeria. Journal of Advanced Research in Applied Sciences and Engineering Technology, 29(3), 115–127. [CrossRef]
  • Global Alliance for Buildings and Construction (2020). Global status report for buildings and construction towards a zero-emissions, efficient and resilient buildings, and construction sector. https://wedocs.unep.org/bitstream/handle/20.500.11822/34572/GSR_ES.pdf
  • González, P.J., & Yousif, C. (2015). Prioritising energy efficiency measures to achieve a zero net-energy hotel on the ısland of Gozo in the Central Mediterranean. Buildings, 83, 50-59. [CrossRef]
  • Ibrahim, I.A. (2017). Green architecture challenges in the middle east within different rating systems. Energy Procedia, 115, 344-352. [CrossRef]
  • Jonesa, R., Fuertesa, A., Goodhewb, S., & Wilde, P. (2017). The actual performance of aspiring low energy social houses in the United Kingdom. Energy Procedia, 105, 2181-2186. [CrossRef]
  • Wang, F., Lin, H., Tu, W., Wang, Y., & Huang, Y. (2015). Energy modelling and chillers sizing of HVAC system for a hotel building. Procedia Engineering, 121, 1812-1818. [CrossRef]
  • Hoof, J., Kort, H.S, Waarde, H., & Blom, M.M. (2010). Environmental interventions and the design of homes for older adults with dementia: an overview. Am J Alzheimers Dis Other Demen 25(3), 202-32. [CrossRef]
  • Emechebe, L.C., Akande, O. K., Ahmed, S. & Lembi, J. J. (2021). Barriers to low energy for public housing delivery in Nigeria. International Journal of Science Academic Research, 7(2), 1785-1790
  • IEA (International Energy Agency) (2019). Energy access outlook: from poverty to prosperity.
  • Council for Renewable Energy, Nigeria (CREN). (2009). Nigeria Electricity Crunch. www.renewablenigeria.org
  • Rural Electrification Agency (REA). (2022). Energy poverty in Nigeria. https://borgenproject.org/energy-poverty-in-nigeria-2/
  • Taltavull de La Paz, P., Juárez Tárrega F., Su Z, & Monllor, P. (2022). Sources of energy poverty: a factor analysis approach for Spain. Front Energy Res 10, Article 847845. [CrossRef]
  • European Fuel Poverty and Energy Efficiency [EPEE]. (2009). European fuel poverty and energy efficiency project. https://www.precarite-energie.org/IMG/pdf/EPEE_Project_presentation.pdf.
  • Bouzarovski, S., & Bouzarovski, S. (2018). Energy poverty policies at the EU level. Energy Poverty: (Dis) Assembling Europe's Infrastructural Divide, 41-73. [CrossRef]
  • USAID. (2021). Nigeria: Power Africa fact sheet. USAID. https://www.usaid.gov/powerafrica/nigeria
  • World Bank. (2021). Nigeria to improve electricity access and services to citizens. https://www.worldbank.org/en/news/press-release/2021/02/05/nigeria-to-improve-electricity-access-and-services-to-citizens.
  • Enerdata. (2021). Nigeria Energy Information. https://enerdata.net
  • Mos, T., & Portelance, G. (2017). Do African countries consume less (or more) electricity than their income level suggest? https://www.cgdev.org/blog/do-african-countries-consume-less-or-more-electricity-than-their-income-levels-suggest
  • Cervigni, R., Rogers, J., & Henrion, M. (2018). Low carbon development: opportunities for Nigeria. World Bank. https://documents1.worldbank.org/curated/en/290751468145147306/pdf/Low-carbon-development-opportunities-for-Nigeria.pdf
  • Akanonu, P. (2019). How big is Nigeria’s power demand? Centre for the Study of the Economies of Africa. Energy for Growth Hub. htt://energyforgrowth.org
  • GIZ. (2015). The Nigerian energy sector: an overview with a special emphasis on renewable energy, energy efficiency and rural electrification. GIZ. https://www.giz.de/en/downloads/giz2015-en-nigerian-energy-sector.pdf
  • Popoola, A.A., Adeleye, B.M. (2020). Access and limitations to clean energy use in Nigeria. In: Qudrat-Ullah, H., Asif, M. (eds) dynamics of energy, environment and economy. Lecture Notes in Energy, vol 77. Springer, Cham.
  • Oyedepo, S.O. (2012). Energy efficiency and conservation measures: tools for sustainable energy development in Nigeria. International Journal of Energy Engineering (IJEE), 2(3), 86-98.
  • Edomah, N., Ndulue, G., & Lemaire, X. (2021). A review of stakeholders and interventions in Nigeria’s electricity sector. Heliyon, 7(9), Article e07956.
  • Ebhota, W. S., & Tabakov, P. Y. (2018). Power inadequacy, the thorn in economic growth of Nigeria. International Journal of Applied Engineering Research, 13(16), 12602-12610.
  • Sambo, A. (2009). Strategic developments in renewable energy in Nigeria. International Association for Energy Economics, 16, 15-19.
  • Chanchangi, Y.N., Adu, F., Ghosh, A. Sundaram, S., & Mallick, T.K. (2022). Nigeria's energy review: Focusing on solar energy potential and penetration. Environ Dev Sustain 25, 5755-5796. [CrossRef]
  • Ajayi, O. O., & Ajayi, O. O. (2013). Nigeria’s energy policy: Inferences, analysis and legal ethics toward RE development. Energy Policy, 60, 61–67. [CrossRef]
  • Aliyu, A. S., Dada, J. O., & Adam, I. K. (2015). Current status and future prospects of renewable energy in Nigeria. Renewable and Sustainable Energy Reviews, 48, 336–346. [CrossRef]
  • FMPWH (Federal Ministry of Power, Works and Housing). (2016). Building energy efficiency guide for Nigeria. https://energypedia.info/images/c/c7/Building_Energy_Efficiency_Guideline_for_Nigeria_2016.pdf. [CrossRef]
  • Ochedi, E.T., & Taki, A. (2019). Towards energy efficient buildings in Nigeria: Challenges and opportunities. Journal of Engineering and Architecture 7(2), 125-133. [CrossRef]
  • Akande, O. K., Fabiyi, O., & Mark, I. (2015). Sustainable approach to developing energy efficient buildings for resilient future of the built environment in Nigeria. American Journal of Civil Engineering and Architecture, 3(4), 144-152.
  • Rosen, M. A. (2008). Towards energy sustainability: a quest of global proportion. Forum of Public Policy online: A Journal of the Oxford Round Table. https://www.questia.com/library/journal/1G1-218606547/towards-energy-sustainability-a-quest-of-global-proportions
  • Davor, H. (2015). Low energy, passive and zero-energy houses. Energy and Ecology. http://www.our-energy.com/low_energy_passive_and_zero_energy_houses.html
  • Medina, A., Cámara, A., & Monrobel, J. R. (2016). Measuring the Socioeconomic and Environmental Effects of Energy Efficiency Investments for a More Sustainable Spanish Economy. (Sustainability), 8, 1039. [CrossRef]
  • Lopez, E., Schlomann, B., Reuter, M., & Eichhammer, W. (2018). Energy efficiency trends and policies in Germany Fraunhofer institute for systems and innovation research ISI, Karlsruhe, Germany 28-29.
  • Persson, J. (2014). Low energy buildings, energy use, indoor climate and market diffusion. Unpublished thesis in chemical engineering, KTH Royal institute of technology school of chemical science and engineering. Stockholm, Sweden.
  • Uyigue, E., Agho, M., Edevbaro, A., Ogbemudia,O.G., Uyigue, O. P., & Okungbowa, G.O. (2009). Energy efficiency survey in Nigeria: A guide for developing policy and legislation. Community research and development centre (CREDC). https://www.osti.gov/etdeweb/servlets/purl/21328691
  • Dadzie, J., Runeson, G., Ding, G., & Bondinuba, F. (2018). Barriers to adoption of sustainable technologies for energy-efficient building upgrade—semi-structured ınterviews. Buildings, 8(4), 57. [CrossRef]
  • Syed, A. (2012). Advanced building technologies for sustainability. John Wiley & Sons.
  • Smith, P. F. (2007). Sustainability at the cutting edge: emerging technologies for low energy buildings. Routledge.
  • Wilkinson, S. J., & Reed, R (2009). Green roof retrofit potential in the central business district. Property Management, 27, 284-301. [CrossRef]
  • Boxwell, M. (2012). Solar electricity handbook, simple practical guide to solar energy-designing and installing photovoltaic solar electric systems. Green Stream Publishing.
  • Oyedepo, S.O. (2012). Energy and sustainable development in Nigeria: the way forward. Energy Adeleye Sustainability and Society. http://www.energsustainsoc.com/content/2/1/15. [CrossRef]
  • Ramya, L.N. (2015). Energy conservation- a case study. International Journal of Applied Engineering Research, 10(9): 8982-8985.
  • Anderson, C. (2021). Energy conservation: 10 ways to save energy. https://www.energysage.com/energy-efficiency/10/ways-to-save-energy
  • Garg, A. N., Kumar, A., Piprrlia, S., & Kumar, P. (2016). Optimizing building performance for energy efficiency in cooling. International Journal on Emerging Technologies, 7(1): 126-131.
  • Bruce, N. (2021). What are the different types of energy conservation techniques? All things nature. https://www.allthingsnature.org/what-are-the-different-types-of Energy-conservation-technique.htm
  • Lester, P. (2015). Future home tech: 8 energy-saving solutions on the horizon. Energy.gov. https://www.energy.gov/articles/future-home-tech-Energy-saving-solution-horizon
  • Akande, O.K., & Olagunju, R.E. (2016). Retrofitting and greening existing buildings: strategies for energy conservation, resource management and sustainability of the built environment in Nigeria. Journal of Sustainable Architecture and Civil Engineering, 15(2), 6-12. [CrossRef]
  • Hanania, J., Jenden, J., Stenhouse, K., & Donev, J. (2015). Energy education. Energy efficient building design. https://energyeducation.ca/wiki/index.php? title=Energy_efficient_building_design&oldid=710
  • Zero energy project. (2021). Affordable zero energy home design & construction in 12 steps. Zero Energy Project. https://zeroenergyproject.org/build/twelve-steps-affordable-zero-energy-home-Construction-design
  • Mohammed, Y. S., Mustafa, M. W., Bashir, N., & Ibrahim, I. S. (2017). Existing and recommended renewable and sustainable energy development in Nigeria based on autonomous energy and microgrid technologies. Renewable and Sustainable Energy Reviews, 75, 820–838. [CrossRef]
  • Leggett, J. (2009). The solar century: the past, present and world-changing future of solar energy. Green Profile.
  • Ikem, I. A., Ibeh, A. I., Nyong, O. E., Takim, S. A., & Osim-Asu, D. (2016). Integration of renewable energy sources to the nigerian national grid—way out of power crisis. International Journal of Engineering Research, 5(8), 694–700.
  • Abd'Razack, N. (2012). An appraisal of household domestic energy consumption in Minna, Nigeria. IOSR Journal of Environmental Science, Toxicology and Food Technology, 2, 16-24. [CrossRef]
  • National Population Commission (NPC). (2010). Federal Republic of Nigeria, (2006). population and housing census. priority table volume IV, population distribution by age and sex.
  • Sulyman, A., Nelson, A., & Medayese, S. (2017). Ecological footprint of housing in Minna, Nigeria, 3(7), 68-84.
  • Akande, O.K., Olagunju, R. E., Aremu, S. C., & Ogundepo, E.A. (2018). Exploring factors ınfluencing of project management success in public building projects in Nigeria. YBL Journal of Built Environment, 6(1), 47-62. [CrossRef]
  • Akande, O.K. (2015) Factors influencing operational energy performance and refurbishment of UK listed church buildings: towards a strategic management framework. [Unpublished PhD thesis submitted to Anglia Ruskin University, Chelmsford, United Kingdom].
  • Bulmer, M., & Warwick D.P. (1993). social research in developing countries: surveys and censuses in the third world. UCL Press.
  • Bulmer, M. (1998). Introduction: the problem of exporting social survey research. american behavioral scientist, 42(2), 153–167. [CrossRef]
  • Creative Research Systems. (2003). The survey systems: sample size calculator. http://www.surveysystem.com/sscalc.htm
  • Czaja, R., & Blair, J. (1995). Designing surveys: a guide to decisions and procedures. SAGE Publications.
  • Akadiri, P. (2011). Development of a multi-criteria approach for the selection of sustainable materials for building projects. Https://Www.Researchgate.Net/Publication/215568358_Development_Of_A_MultiCriteria_Approach_For_The_Selection_Of_Sustainable_Materials_For_Building_Projects
  • Botani, D. (2021). What is the acceptable response rate for survey research?. https://www.researchgate.net/post/What-is-the-acceptable-response-rate-for-survey-research/60fbdf4b213b617c7a2f0aff/citation/download.
  • Borg, S.P., & Kelly, N. (2011). The effect of appliance energy efficiency improvements on domestic electric loads in European households. Energy and Buildings, 43, 2240–2250. [CrossRef]
  • Mohanty, B. (2004). Improving energy efficiency in the construction and building sector. In: End-use energy efficiency and promotion of a sustainable energy future Chapter: 4. United Nations.
  • Akande, O.K. (2010). Passive design strategies for residential buildings in a hot dry climate in Nigeria. WIT Transactions on Ecology and the Environment, 128, 61-71. [CrossRef]
  • Akande, O. K., Akoh, S., Francis B., Odekina, S., Eyigege, E., & Abdulsalam M. (2021). Assessing the potentials of low impact materials for low energy housing provision in Nigeria. Journal of sustainable construction Materials and Technologies, 6(4), 156-167. [CrossRef]
  • Adebayo, A. A. (2005). Sustainable construction in Africa. Agenda 21 for sustainable construction in developing countries Africa position paper. https://www.irbnet.de/daten/iconda/CIB659.pdf
  • Lembi, J.J., Akande, O.K., Salawu A., Emechebe, L.C. (2021). The drivers for low energy materials application for sustainable public housing delivery in Nigeria. Landscape Architecture and Regional Planning, 6(2), 19-24. [CrossRef]
  • Nikolai, V, & Olga, G. (2014). Choosing the right type of windows to improve energy efficiency of buildings. Applied Mechanics and Materials, 633-634, 972-976. [CrossRef]
  • Wargocki, P. (2013). The effects of ventilation in homes on health. Int J Vent, 12, 101-118. [CrossRef]
  • Sherman, M, & Matson, N. (1997). Residential ventilation and energy characteristics. ASHRAE Transactions. 103.
  • Chen, Yi-Tui. (2017). The factors affecting electricity consumption and the consumption characteristics in the residential sector—a case example of Taiwan. Sustainability, 9, Article 1484. [CrossRef]
  • Monacchi, A., Elmenreich, W., D’Alessandro, S., & Tonello, A. (2013). Strategies for domestic energy conservation in Carinthia and Friuli-Venezia Giulia. IECON Proceedings (Industrial Electronics Conference). [CrossRef]
  • Seppanen, O. (2008). Ventilation strategies for good indoor air quality and energy efficiency. International Journal of Ventilation, 6(4), 929-935.
Year 2023, Volume: 8 Issue: 3, 216 - 232, 03.10.2023
https://doi.org/10.47481/jscmt.1184338

Abstract

References

  • IEA (International Energy Agency) (2021). Global Energy Review 2021: Assessing the effects of economic recoveries on Energy demand and CO2 emission in 2021.
  • Irfani, F.U. M., Hooi, H. L., Djoni, H., Kenny, D. I., & Ramadani, P. (2022). Population density and energy consumption: A study in Indonesian provinces. Heliyon, 8, (9) 2405-8440. [CrossRef]
  • Yusuf, A, & Akande O. K. (2023). Drivers, enablers, barriers and technologies (debt) for low-energy public housing delivery in Nigeria. Journal of Advanced Research in Applied Sciences and Engineering Technology, 29(3), 115–127. [CrossRef]
  • Global Alliance for Buildings and Construction (2020). Global status report for buildings and construction towards a zero-emissions, efficient and resilient buildings, and construction sector. https://wedocs.unep.org/bitstream/handle/20.500.11822/34572/GSR_ES.pdf
  • González, P.J., & Yousif, C. (2015). Prioritising energy efficiency measures to achieve a zero net-energy hotel on the ısland of Gozo in the Central Mediterranean. Buildings, 83, 50-59. [CrossRef]
  • Ibrahim, I.A. (2017). Green architecture challenges in the middle east within different rating systems. Energy Procedia, 115, 344-352. [CrossRef]
  • Jonesa, R., Fuertesa, A., Goodhewb, S., & Wilde, P. (2017). The actual performance of aspiring low energy social houses in the United Kingdom. Energy Procedia, 105, 2181-2186. [CrossRef]
  • Wang, F., Lin, H., Tu, W., Wang, Y., & Huang, Y. (2015). Energy modelling and chillers sizing of HVAC system for a hotel building. Procedia Engineering, 121, 1812-1818. [CrossRef]
  • Hoof, J., Kort, H.S, Waarde, H., & Blom, M.M. (2010). Environmental interventions and the design of homes for older adults with dementia: an overview. Am J Alzheimers Dis Other Demen 25(3), 202-32. [CrossRef]
  • Emechebe, L.C., Akande, O. K., Ahmed, S. & Lembi, J. J. (2021). Barriers to low energy for public housing delivery in Nigeria. International Journal of Science Academic Research, 7(2), 1785-1790
  • IEA (International Energy Agency) (2019). Energy access outlook: from poverty to prosperity.
  • Council for Renewable Energy, Nigeria (CREN). (2009). Nigeria Electricity Crunch. www.renewablenigeria.org
  • Rural Electrification Agency (REA). (2022). Energy poverty in Nigeria. https://borgenproject.org/energy-poverty-in-nigeria-2/
  • Taltavull de La Paz, P., Juárez Tárrega F., Su Z, & Monllor, P. (2022). Sources of energy poverty: a factor analysis approach for Spain. Front Energy Res 10, Article 847845. [CrossRef]
  • European Fuel Poverty and Energy Efficiency [EPEE]. (2009). European fuel poverty and energy efficiency project. https://www.precarite-energie.org/IMG/pdf/EPEE_Project_presentation.pdf.
  • Bouzarovski, S., & Bouzarovski, S. (2018). Energy poverty policies at the EU level. Energy Poverty: (Dis) Assembling Europe's Infrastructural Divide, 41-73. [CrossRef]
  • USAID. (2021). Nigeria: Power Africa fact sheet. USAID. https://www.usaid.gov/powerafrica/nigeria
  • World Bank. (2021). Nigeria to improve electricity access and services to citizens. https://www.worldbank.org/en/news/press-release/2021/02/05/nigeria-to-improve-electricity-access-and-services-to-citizens.
  • Enerdata. (2021). Nigeria Energy Information. https://enerdata.net
  • Mos, T., & Portelance, G. (2017). Do African countries consume less (or more) electricity than their income level suggest? https://www.cgdev.org/blog/do-african-countries-consume-less-or-more-electricity-than-their-income-levels-suggest
  • Cervigni, R., Rogers, J., & Henrion, M. (2018). Low carbon development: opportunities for Nigeria. World Bank. https://documents1.worldbank.org/curated/en/290751468145147306/pdf/Low-carbon-development-opportunities-for-Nigeria.pdf
  • Akanonu, P. (2019). How big is Nigeria’s power demand? Centre for the Study of the Economies of Africa. Energy for Growth Hub. htt://energyforgrowth.org
  • GIZ. (2015). The Nigerian energy sector: an overview with a special emphasis on renewable energy, energy efficiency and rural electrification. GIZ. https://www.giz.de/en/downloads/giz2015-en-nigerian-energy-sector.pdf
  • Popoola, A.A., Adeleye, B.M. (2020). Access and limitations to clean energy use in Nigeria. In: Qudrat-Ullah, H., Asif, M. (eds) dynamics of energy, environment and economy. Lecture Notes in Energy, vol 77. Springer, Cham.
  • Oyedepo, S.O. (2012). Energy efficiency and conservation measures: tools for sustainable energy development in Nigeria. International Journal of Energy Engineering (IJEE), 2(3), 86-98.
  • Edomah, N., Ndulue, G., & Lemaire, X. (2021). A review of stakeholders and interventions in Nigeria’s electricity sector. Heliyon, 7(9), Article e07956.
  • Ebhota, W. S., & Tabakov, P. Y. (2018). Power inadequacy, the thorn in economic growth of Nigeria. International Journal of Applied Engineering Research, 13(16), 12602-12610.
  • Sambo, A. (2009). Strategic developments in renewable energy in Nigeria. International Association for Energy Economics, 16, 15-19.
  • Chanchangi, Y.N., Adu, F., Ghosh, A. Sundaram, S., & Mallick, T.K. (2022). Nigeria's energy review: Focusing on solar energy potential and penetration. Environ Dev Sustain 25, 5755-5796. [CrossRef]
  • Ajayi, O. O., & Ajayi, O. O. (2013). Nigeria’s energy policy: Inferences, analysis and legal ethics toward RE development. Energy Policy, 60, 61–67. [CrossRef]
  • Aliyu, A. S., Dada, J. O., & Adam, I. K. (2015). Current status and future prospects of renewable energy in Nigeria. Renewable and Sustainable Energy Reviews, 48, 336–346. [CrossRef]
  • FMPWH (Federal Ministry of Power, Works and Housing). (2016). Building energy efficiency guide for Nigeria. https://energypedia.info/images/c/c7/Building_Energy_Efficiency_Guideline_for_Nigeria_2016.pdf. [CrossRef]
  • Ochedi, E.T., & Taki, A. (2019). Towards energy efficient buildings in Nigeria: Challenges and opportunities. Journal of Engineering and Architecture 7(2), 125-133. [CrossRef]
  • Akande, O. K., Fabiyi, O., & Mark, I. (2015). Sustainable approach to developing energy efficient buildings for resilient future of the built environment in Nigeria. American Journal of Civil Engineering and Architecture, 3(4), 144-152.
  • Rosen, M. A. (2008). Towards energy sustainability: a quest of global proportion. Forum of Public Policy online: A Journal of the Oxford Round Table. https://www.questia.com/library/journal/1G1-218606547/towards-energy-sustainability-a-quest-of-global-proportions
  • Davor, H. (2015). Low energy, passive and zero-energy houses. Energy and Ecology. http://www.our-energy.com/low_energy_passive_and_zero_energy_houses.html
  • Medina, A., Cámara, A., & Monrobel, J. R. (2016). Measuring the Socioeconomic and Environmental Effects of Energy Efficiency Investments for a More Sustainable Spanish Economy. (Sustainability), 8, 1039. [CrossRef]
  • Lopez, E., Schlomann, B., Reuter, M., & Eichhammer, W. (2018). Energy efficiency trends and policies in Germany Fraunhofer institute for systems and innovation research ISI, Karlsruhe, Germany 28-29.
  • Persson, J. (2014). Low energy buildings, energy use, indoor climate and market diffusion. Unpublished thesis in chemical engineering, KTH Royal institute of technology school of chemical science and engineering. Stockholm, Sweden.
  • Uyigue, E., Agho, M., Edevbaro, A., Ogbemudia,O.G., Uyigue, O. P., & Okungbowa, G.O. (2009). Energy efficiency survey in Nigeria: A guide for developing policy and legislation. Community research and development centre (CREDC). https://www.osti.gov/etdeweb/servlets/purl/21328691
  • Dadzie, J., Runeson, G., Ding, G., & Bondinuba, F. (2018). Barriers to adoption of sustainable technologies for energy-efficient building upgrade—semi-structured ınterviews. Buildings, 8(4), 57. [CrossRef]
  • Syed, A. (2012). Advanced building technologies for sustainability. John Wiley & Sons.
  • Smith, P. F. (2007). Sustainability at the cutting edge: emerging technologies for low energy buildings. Routledge.
  • Wilkinson, S. J., & Reed, R (2009). Green roof retrofit potential in the central business district. Property Management, 27, 284-301. [CrossRef]
  • Boxwell, M. (2012). Solar electricity handbook, simple practical guide to solar energy-designing and installing photovoltaic solar electric systems. Green Stream Publishing.
  • Oyedepo, S.O. (2012). Energy and sustainable development in Nigeria: the way forward. Energy Adeleye Sustainability and Society. http://www.energsustainsoc.com/content/2/1/15. [CrossRef]
  • Ramya, L.N. (2015). Energy conservation- a case study. International Journal of Applied Engineering Research, 10(9): 8982-8985.
  • Anderson, C. (2021). Energy conservation: 10 ways to save energy. https://www.energysage.com/energy-efficiency/10/ways-to-save-energy
  • Garg, A. N., Kumar, A., Piprrlia, S., & Kumar, P. (2016). Optimizing building performance for energy efficiency in cooling. International Journal on Emerging Technologies, 7(1): 126-131.
  • Bruce, N. (2021). What are the different types of energy conservation techniques? All things nature. https://www.allthingsnature.org/what-are-the-different-types-of Energy-conservation-technique.htm
  • Lester, P. (2015). Future home tech: 8 energy-saving solutions on the horizon. Energy.gov. https://www.energy.gov/articles/future-home-tech-Energy-saving-solution-horizon
  • Akande, O.K., & Olagunju, R.E. (2016). Retrofitting and greening existing buildings: strategies for energy conservation, resource management and sustainability of the built environment in Nigeria. Journal of Sustainable Architecture and Civil Engineering, 15(2), 6-12. [CrossRef]
  • Hanania, J., Jenden, J., Stenhouse, K., & Donev, J. (2015). Energy education. Energy efficient building design. https://energyeducation.ca/wiki/index.php? title=Energy_efficient_building_design&oldid=710
  • Zero energy project. (2021). Affordable zero energy home design & construction in 12 steps. Zero Energy Project. https://zeroenergyproject.org/build/twelve-steps-affordable-zero-energy-home-Construction-design
  • Mohammed, Y. S., Mustafa, M. W., Bashir, N., & Ibrahim, I. S. (2017). Existing and recommended renewable and sustainable energy development in Nigeria based on autonomous energy and microgrid technologies. Renewable and Sustainable Energy Reviews, 75, 820–838. [CrossRef]
  • Leggett, J. (2009). The solar century: the past, present and world-changing future of solar energy. Green Profile.
  • Ikem, I. A., Ibeh, A. I., Nyong, O. E., Takim, S. A., & Osim-Asu, D. (2016). Integration of renewable energy sources to the nigerian national grid—way out of power crisis. International Journal of Engineering Research, 5(8), 694–700.
  • Abd'Razack, N. (2012). An appraisal of household domestic energy consumption in Minna, Nigeria. IOSR Journal of Environmental Science, Toxicology and Food Technology, 2, 16-24. [CrossRef]
  • National Population Commission (NPC). (2010). Federal Republic of Nigeria, (2006). population and housing census. priority table volume IV, population distribution by age and sex.
  • Sulyman, A., Nelson, A., & Medayese, S. (2017). Ecological footprint of housing in Minna, Nigeria, 3(7), 68-84.
  • Akande, O.K., Olagunju, R. E., Aremu, S. C., & Ogundepo, E.A. (2018). Exploring factors ınfluencing of project management success in public building projects in Nigeria. YBL Journal of Built Environment, 6(1), 47-62. [CrossRef]
  • Akande, O.K. (2015) Factors influencing operational energy performance and refurbishment of UK listed church buildings: towards a strategic management framework. [Unpublished PhD thesis submitted to Anglia Ruskin University, Chelmsford, United Kingdom].
  • Bulmer, M., & Warwick D.P. (1993). social research in developing countries: surveys and censuses in the third world. UCL Press.
  • Bulmer, M. (1998). Introduction: the problem of exporting social survey research. american behavioral scientist, 42(2), 153–167. [CrossRef]
  • Creative Research Systems. (2003). The survey systems: sample size calculator. http://www.surveysystem.com/sscalc.htm
  • Czaja, R., & Blair, J. (1995). Designing surveys: a guide to decisions and procedures. SAGE Publications.
  • Akadiri, P. (2011). Development of a multi-criteria approach for the selection of sustainable materials for building projects. Https://Www.Researchgate.Net/Publication/215568358_Development_Of_A_MultiCriteria_Approach_For_The_Selection_Of_Sustainable_Materials_For_Building_Projects
  • Botani, D. (2021). What is the acceptable response rate for survey research?. https://www.researchgate.net/post/What-is-the-acceptable-response-rate-for-survey-research/60fbdf4b213b617c7a2f0aff/citation/download.
  • Borg, S.P., & Kelly, N. (2011). The effect of appliance energy efficiency improvements on domestic electric loads in European households. Energy and Buildings, 43, 2240–2250. [CrossRef]
  • Mohanty, B. (2004). Improving energy efficiency in the construction and building sector. In: End-use energy efficiency and promotion of a sustainable energy future Chapter: 4. United Nations.
  • Akande, O.K. (2010). Passive design strategies for residential buildings in a hot dry climate in Nigeria. WIT Transactions on Ecology and the Environment, 128, 61-71. [CrossRef]
  • Akande, O. K., Akoh, S., Francis B., Odekina, S., Eyigege, E., & Abdulsalam M. (2021). Assessing the potentials of low impact materials for low energy housing provision in Nigeria. Journal of sustainable construction Materials and Technologies, 6(4), 156-167. [CrossRef]
  • Adebayo, A. A. (2005). Sustainable construction in Africa. Agenda 21 for sustainable construction in developing countries Africa position paper. https://www.irbnet.de/daten/iconda/CIB659.pdf
  • Lembi, J.J., Akande, O.K., Salawu A., Emechebe, L.C. (2021). The drivers for low energy materials application for sustainable public housing delivery in Nigeria. Landscape Architecture and Regional Planning, 6(2), 19-24. [CrossRef]
  • Nikolai, V, & Olga, G. (2014). Choosing the right type of windows to improve energy efficiency of buildings. Applied Mechanics and Materials, 633-634, 972-976. [CrossRef]
  • Wargocki, P. (2013). The effects of ventilation in homes on health. Int J Vent, 12, 101-118. [CrossRef]
  • Sherman, M, & Matson, N. (1997). Residential ventilation and energy characteristics. ASHRAE Transactions. 103.
  • Chen, Yi-Tui. (2017). The factors affecting electricity consumption and the consumption characteristics in the residential sector—a case example of Taiwan. Sustainability, 9, Article 1484. [CrossRef]
  • Monacchi, A., Elmenreich, W., D’Alessandro, S., & Tonello, A. (2013). Strategies for domestic energy conservation in Carinthia and Friuli-Venezia Giulia. IECON Proceedings (Industrial Electronics Conference). [CrossRef]
  • Seppanen, O. (2008). Ventilation strategies for good indoor air quality and energy efficiency. International Journal of Ventilation, 6(4), 929-935.
There are 80 citations in total.

Details

Primary Language English
Subjects Engineering, Material Production Technologies
Journal Section Research Articles
Authors

Oluwafemi Akande

Chioma Emechebe This is me

Jonam Lembi This is me

Joy Nwokorie This is me

Early Pub Date September 30, 2023
Publication Date October 3, 2023
Submission Date October 4, 2022
Acceptance Date June 1, 2023
Published in Issue Year 2023 Volume: 8 Issue: 3

Cite

APA Akande, O., Emechebe, C., Lembi, J., Nwokorie, J. (2023). Energy Demand Reduction for Nigeria Housing Stock Through Innovative Materials, Methods and Technologies. Journal of Sustainable Construction Materials and Technologies, 8(3), 216-232. https://doi.org/10.47481/jscmt.1184338

88x31_3.png

Journal of Sustainable Construction Materials and Technologies is open access journal under the CC BY-NC license  (Creative Commons Attribution 4.0 International License)

Based on a work at https://dergipark.org.tr/en/pub/jscmt

E-mail: jscmt@yildiz.edu.tr