How to cite this paper
Abdulsalam, K., Ighravwe, D & Babatunde, M. (2018). A fuzzy-TOPSIS approach for techno-economic viability of lighting energy efficiency measure in public building projects.Journal of Project Management, 3(4), 197-206.
Refrences
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Ahmad, A.S., Hassan, M.Y., Abdullah, H., Rahman, H.A., Majid, M. S., & Bandi, M. (2012, Decem-ber). Energy efficiency measurements in a Malaysian public university. In Power and Energy (PECon), 2012 IEEE International Conference on (pp. 582-587). IEEE.
Alepuz, S., Busquets-Monge, S., Bordonau, J., Gago, J., González, D., & Balcells, J. (2006). Interfac-ing renewable energy sources to the utility grid using a three-level inverter. IEEE Transactions on Industrial Electronics, 53(5), 1504-1511.
al Irsyad, M.I., & Nepal, R. (2016). A survey based approach to estimating the benefits of energy ef-ficiency improvements in street lighting systems in Indonesia. Renewable and Sustainable Energy Reviews, 58, 1569-1577.
Babatunde, O. M., Oluseyi, P. O., Akinbulire, T. O., Denwigwe, H. I., & Akin-Adeniyi, T. J. (2018a). The role of demand-side management in carbon footprint reduction in modern energy services for rural health clinics. In Environmental Carbon Footprints (pp. 317-363).
Babatunde, O., Akinyele, D., Akinbulire, T., & Oluseyi, P. (2018b). Evaluation of a grid-independent solar photovoltaic system for primary health centres (PHCs) in developing countries. Renewable Energy Focus, 24, 16-27.
Chaudhuri, S.K., & Lovley, D.R. (2003). Electricity generation by direct oxidation of glucose in me-diatorless microbial fuel cells. Nature biotechnology, 21(10), 1229.
Di Stefano, J. (2000). Energy efficiency and the environment: the potential for energy efficient light-ing to save energy and reduce carbon dioxide emissions at Melbourne University, Australia. Ener-gy, 25(9), 823-839.
Enongene, K.E., Murray, P., Holland, J., & Abanda, F. H. (2017). Energy savings and economic ben-efits of transition towards efficient lighting in residential buildings in Cameroon. Renewable and Sustainable Energy Reviews, 78, 731-742.
Ganandran, G.S.B., Mahlia, T. M. I., Ong, H.C., Rismanchi, B., & Chong, W.T. (2014). Cost-benefit analysis and emission reduction of energy efficient lighting at the universiti tenaga nasional. The Scientific World Journal, 2014.
Gbadega P.A. (2015). Techno-economic and environmental viability of retrofittings in public build-ing, unpublished B.Sc thesis, university of Lagos, Nigeria.
Herzog, A.V., Lipman, T.E., & Kammen, D.M. (2001). Renewable energy sources. Encyclopedia of Life Support Systems (EOLSS). Forerunner Volume-‘Perspectives and Overview of Life Support Systems and Sustainable Development.
Ighravwe, D.E., & Oke, S.A (2016). A multi-attribute framework for determining the competitive ad-vantages of products for business survival: A fuzzy TOPSIS approach. Total Quality Management and Business Excellence. http://dx.doi.org/10.1080/14783363.2016.1234348.
Ighravwe, D., & Babatunde, M. (2018). Selection of a mini-grid business model for developing coun-tries using CRITIC-TOPSIS with interval type-2 fuzzy sets. Decision Science Letters, 7(4), 427-442.
Kumar, A., Jain, S. K., & Bansal, N. K. (2003). Disseminating energy-efficient technologies: a case study of compact fluorescent lamps (CFLs) in India. Energy Policy, 31(3), 259-272.
Li, D.H., Cheung, K.L., Wong, S.L., & Lam, T.N. (2010). An analysis of energy-efficient light fit-tings and lighting controls. Applied Energy, 87(2), 558-567.
Liserre, M., Sauter, T., & Hung, J.Y. (2010). Future energy systems: Integrating renewable energy sources into the smart power grid through industrial electronics. IEEE Industrial Electronics Maga-zine, 4(1), 18-37.
Liu, H., & Logan, B.E. (2004). Electricity generation using an air-cathode single chamber microbial fuel cell in the presence and absence of a proton exchange membrane. Environmental Science & Technology, 38(14), 4040-4046.
Mahlia, T.M.I., Razak, H.A., & Nursahida, M.A. (2011). Life cycle cost analysis and payback period of lighting retrofit at the University of Malaya. Renewable and Sustainable Energy Reviews, 15(2), 1125-1132.
Mills, B., & Schleich, J. (2014). Household transitions to energy efficient lighting. Energy Economics, 46, 151-160.
Omer, A.M. (2010). A review of non-conventional energy systems and environmental pollution con-trol. Journal of Soil Science and Environmental Management, 1(7), 127-154.
Okoro, O., Chikuni, E., & Oluseyi, P. (2008). Introducing an Energy Efficiency Awareness Pro-gramme at the University Of Nigeria, Nsukka. Industrial & Commercial Use of Energy.
Oyedepo, S.O. (2012). Energy and sustainable development in Nigeria: the way forward. Energy, Sustainability and Society, 2(1), 15.
Panwar, N.L., Kaushik, S.C., & Kothari, S. (2011). Role of renewable energy sources in environmen-tal protection: a review. Renewable and Sustainable Energy Reviews, 15(3), 1513-1524.
Roszkowska, E. (2011). Multi-criteria decision making models by applying the TOPSIS method to crisp and interval data. Multiple Criteria Decision Making/University of Economics in Katowice, 6, 200-230.
Shahmardan, A., & Zadeh, M.H. (2013). An integrated approach for solving a MCDM problem, Combination of Entropy Fuzzy and F-PROMETHEE techniques. Journal of Industrial Engineering and Management, 6(4), 1124-1138.
Šúri, M., Huld, T.A., Dunlop, E.D., & Ossenbrink, H.A. (2007). Potential of solar electricity genera-tion in the European Union member states and candidate countries. Solar energy, 81(10), 1295-1305.
Trifunovic, J., Mikulovic, J., Djurisic, Z., Djuric, M., & Kostic, M. (2009). Reductions in electricity consumption and power demand in case of the mass use of compact fluorescent lamps. Energy, 34(9), 1355-1363.
Ahmad, A.S., Hassan, M.Y., Abdullah, H., Rahman, H.A., Majid, M. S., & Bandi, M. (2012, Decem-ber). Energy efficiency measurements in a Malaysian public university. In Power and Energy (PECon), 2012 IEEE International Conference on (pp. 582-587). IEEE.
Alepuz, S., Busquets-Monge, S., Bordonau, J., Gago, J., González, D., & Balcells, J. (2006). Interfac-ing renewable energy sources to the utility grid using a three-level inverter. IEEE Transactions on Industrial Electronics, 53(5), 1504-1511.
al Irsyad, M.I., & Nepal, R. (2016). A survey based approach to estimating the benefits of energy ef-ficiency improvements in street lighting systems in Indonesia. Renewable and Sustainable Energy Reviews, 58, 1569-1577.
Babatunde, O. M., Oluseyi, P. O., Akinbulire, T. O., Denwigwe, H. I., & Akin-Adeniyi, T. J. (2018a). The role of demand-side management in carbon footprint reduction in modern energy services for rural health clinics. In Environmental Carbon Footprints (pp. 317-363).
Babatunde, O., Akinyele, D., Akinbulire, T., & Oluseyi, P. (2018b). Evaluation of a grid-independent solar photovoltaic system for primary health centres (PHCs) in developing countries. Renewable Energy Focus, 24, 16-27.
Chaudhuri, S.K., & Lovley, D.R. (2003). Electricity generation by direct oxidation of glucose in me-diatorless microbial fuel cells. Nature biotechnology, 21(10), 1229.
Di Stefano, J. (2000). Energy efficiency and the environment: the potential for energy efficient light-ing to save energy and reduce carbon dioxide emissions at Melbourne University, Australia. Ener-gy, 25(9), 823-839.
Enongene, K.E., Murray, P., Holland, J., & Abanda, F. H. (2017). Energy savings and economic ben-efits of transition towards efficient lighting in residential buildings in Cameroon. Renewable and Sustainable Energy Reviews, 78, 731-742.
Ganandran, G.S.B., Mahlia, T. M. I., Ong, H.C., Rismanchi, B., & Chong, W.T. (2014). Cost-benefit analysis and emission reduction of energy efficient lighting at the universiti tenaga nasional. The Scientific World Journal, 2014.
Gbadega P.A. (2015). Techno-economic and environmental viability of retrofittings in public build-ing, unpublished B.Sc thesis, university of Lagos, Nigeria.
Herzog, A.V., Lipman, T.E., & Kammen, D.M. (2001). Renewable energy sources. Encyclopedia of Life Support Systems (EOLSS). Forerunner Volume-‘Perspectives and Overview of Life Support Systems and Sustainable Development.
Ighravwe, D.E., & Oke, S.A (2016). A multi-attribute framework for determining the competitive ad-vantages of products for business survival: A fuzzy TOPSIS approach. Total Quality Management and Business Excellence. http://dx.doi.org/10.1080/14783363.2016.1234348.
Ighravwe, D., & Babatunde, M. (2018). Selection of a mini-grid business model for developing coun-tries using CRITIC-TOPSIS with interval type-2 fuzzy sets. Decision Science Letters, 7(4), 427-442.
Kumar, A., Jain, S. K., & Bansal, N. K. (2003). Disseminating energy-efficient technologies: a case study of compact fluorescent lamps (CFLs) in India. Energy Policy, 31(3), 259-272.
Li, D.H., Cheung, K.L., Wong, S.L., & Lam, T.N. (2010). An analysis of energy-efficient light fit-tings and lighting controls. Applied Energy, 87(2), 558-567.
Liserre, M., Sauter, T., & Hung, J.Y. (2010). Future energy systems: Integrating renewable energy sources into the smart power grid through industrial electronics. IEEE Industrial Electronics Maga-zine, 4(1), 18-37.
Liu, H., & Logan, B.E. (2004). Electricity generation using an air-cathode single chamber microbial fuel cell in the presence and absence of a proton exchange membrane. Environmental Science & Technology, 38(14), 4040-4046.
Mahlia, T.M.I., Razak, H.A., & Nursahida, M.A. (2011). Life cycle cost analysis and payback period of lighting retrofit at the University of Malaya. Renewable and Sustainable Energy Reviews, 15(2), 1125-1132.
Mills, B., & Schleich, J. (2014). Household transitions to energy efficient lighting. Energy Economics, 46, 151-160.
Omer, A.M. (2010). A review of non-conventional energy systems and environmental pollution con-trol. Journal of Soil Science and Environmental Management, 1(7), 127-154.
Okoro, O., Chikuni, E., & Oluseyi, P. (2008). Introducing an Energy Efficiency Awareness Pro-gramme at the University Of Nigeria, Nsukka. Industrial & Commercial Use of Energy.
Oyedepo, S.O. (2012). Energy and sustainable development in Nigeria: the way forward. Energy, Sustainability and Society, 2(1), 15.
Panwar, N.L., Kaushik, S.C., & Kothari, S. (2011). Role of renewable energy sources in environmen-tal protection: a review. Renewable and Sustainable Energy Reviews, 15(3), 1513-1524.
Roszkowska, E. (2011). Multi-criteria decision making models by applying the TOPSIS method to crisp and interval data. Multiple Criteria Decision Making/University of Economics in Katowice, 6, 200-230.
Shahmardan, A., & Zadeh, M.H. (2013). An integrated approach for solving a MCDM problem, Combination of Entropy Fuzzy and F-PROMETHEE techniques. Journal of Industrial Engineering and Management, 6(4), 1124-1138.
Šúri, M., Huld, T.A., Dunlop, E.D., & Ossenbrink, H.A. (2007). Potential of solar electricity genera-tion in the European Union member states and candidate countries. Solar energy, 81(10), 1295-1305.
Trifunovic, J., Mikulovic, J., Djurisic, Z., Djuric, M., & Kostic, M. (2009). Reductions in electricity consumption and power demand in case of the mass use of compact fluorescent lamps. Energy, 34(9), 1355-1363.