Adoption of Solar Grid-Tied PV-System Adopted in a Residential Building
Emerging construction technologies focussing on the role and development of energy-conserving equipment can play a major role in solving a wide range of environmental and nature resource problems such as the greenhouse gas. Alternative energy is becoming a popular for property developers because of its potential of becoming more economically viable option when compared to current energy source-electricity. The objective of this research report is to conduct a cost-benefit analysis of adopting a solar energy technology specifically the solar grid-tied system by comparing the cost of initial investment and usage in a typical three bedroom residential building a conventional electricity power supply. Using a case study research approach, the research findings showed that the PV system is more cost-effective in the long term compared to the conversional electricity supply. Although the pre-investment is relatively high in the PV system, it is a reliable investment in the long-term. It is important to emphasise that the use energy efficient appliances, lighting, insulation and double glassing has enhanced the effectiveness of the system.
Keywords: Photovoltaic system (PV); Solar energy; Cost-effectiveness
Boyle, G. 2004, Renewable Energy, Oxford University Press, UK.
Chakrabarti, S. & Chakrabarti S. 2002, 'Rural Electrification Programme with Solar Energy in Remote Region-A Case Study in an Island', Energy Policy, 30 (1), 33-42
Dresselhaus, M. & Thomas, I. 2001, 'Alternative Energy Technologies', Nature 414 (6861), 332-337. http://dx.doi.org/10.1038/35104599
Ghoniem, A. 2011, 'Needs, resources and climate change: clean and efficient conversion technologies', Progress in Energy and Combustion Science, 37(1), 15-51
Kats, G. and Capital, E. 2003, Green Building Costs and Financial Benefits, Massachusetts Technology Collaborative, Boston, MA.
Kelly, G. 2007, 'Renewable Energy Strategies in England, Australia and New Zealand, ' Geoforum 38(2), 326-338
Mills, D. 2004, 'Advances in Solar Thermal Electricity Technology', Solar Energy 76(1), 19-31
Ministry of Commerce and Eden Resources 1993, Renewable Energy Opportunities for New Zealand: Executive Report, Ministry of Commerce and Eden Resources, Wellington, New Zealand.
Olz, S., R. Sims and N. Kirchner (2007). Contribution of Renewables to Energy Security IEA Information Paper, International Energy Agency (IEA).
Panwar, N., Kaushik, S. & Kothari, S. 2011, 'Role of Renewable Energy Sources in Environmental Protection: A Review', Renewable and Sustainable Energy Reviews, 15(3), 1513-1524
Vorobiev, Y., Gonzalez-Hernandez, J., Vorobiev, P. et al. 2006, 'Thermal-photovoltaic Solar Hybrid System For Efficient Solar Energy Conversion', Solar Energy, 80(2), 170-176
Yin, R. K. 2009, Case Study Research: Design and Methods, Sage Publications, Los Angeles.
Yudelson, J. 2008, The Green Building Revolution, Island Press, Washington DC.
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