Energy Consumption Attributes in Residential Buildings- A Case Study of Replacing Conventional Electrical Appliances with Energy Efficient Appliances

Ajay Thakur, Lalit Kumar, Harsimranjit Kaur Romana, Ram Kishan Malik


Increasing world energy demand is resulting in degradation of environment causing global warming, ozone layer depletion, climate change and exhaustion of our nonrenewable energy resources. This paper reviews different studies about energy consumption in residential buildings and different variables influencing the energy consumption. This paper also reviews the potential and challenges uprooting in the usage of renewable energy sources. The payback period in a residential building varied from 213 days to 502 days for 3BHK dwelling and 213 days to 556 days for 2BHK dwelling if various appliances are replaced with energy efficient ones in a case study of Pune (India). Replacing the lighting appliances came out to be most economical in respect of the consumer, while if TV, Fan and Light are replaced, the initial cost increases but reduction in energy consumption is considerable.  This study shows retrofitting of old buildings, energy conservative behavior of occupants, motivating and educating people for the use of renewable energy sources and use of energy efficient appliances are found to be the most efficient steps to reduce overall energy consumption by residential building sector.

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Residential Building; India; Energy consumption; Energy Efficiency; Energy use; Energy audit; Household behavior; Renewable energy sources.

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Statistical review of world energy, British Petroleum, 65th Edition, 2016.

All India Installed Capacity of Power Stations, Central Electricity Authority, 2016.

Energy Statistics, Central Statistical Organization, Ministry of Statistics and Program of Implementation, Government of India, 2016

Strategic Plan for New and Renewable Energy Sector for the period2011-17, Ministry of New and Renewable Energy Government of India, 2011.

P. R. Krithika and S.Mahajan, “Governance of renewable energy in India: Issues and challenges”, The Energy and Research Institute, TERI-NFA Working Paper Series No. 14, March, 2014.

P. Tiwari, “Architectural, demographic and economic causes of electricity consumption in Bombay”, Journal of Policy Modeling, vol. 22, No. 3, pp. 81-98, January 2000.

E. Leahy and S. Lyons, “Household Energy Use and Appliance Ownership in Ireland”, Energy Policy, Vol. 38, No. 8, pp. 4265-4279, February, 2009.

K. Genjo, S. Tanabe, S. Matsumoto, K. Hasegawa and H. Yoshino, “Relationship between possession of electric appliances and electricity for lighting and others in Japanese households”, Energy and Building, vol. 37, No. 3, pp. 259–272, 2015.

D. Brounen, N. Kok and J. M. Quigley, “Residential energy use and conservation: economics and demographics”, European Economic Review, vol. 56, No. 5, pp. 931-945, July 2012.

M. Filippini and S. Pachauri, “Elasticities of electricity demand in urban Indian households”, Energy Policy, vol. 32, No. 3, pp. 429–436, February 2004.

O.T. Masoso and L.J. Grobler, “The dark side of occupant’s behavior on building energy use”, Energy and Buildings, vol. 42, No. 2, pp. 173–177, February 2010.

D. Lindelöf and N. Morel, “A field investigation of the intermediate light switching by users”, Energy and Buildings, vol. 38, No. 7, pp. 790-801, July 2006.

J. Langevin, J. Wen and P. L. Gurian, “Including occupants in building performance simulation: integration of an agent-based occupant behavior algorithm with Energy Plus”, ASHRAE/IBPSA-USA Building Simulation Conference, Atlanta, GA, 10–12 September 2014.

B. Larsen and R. Nesbakken, “Household electricity end-use consumption: results from econometric and engineering models”, Energy Economics, vol. 26, No. 2, pp. 179-200, March 2004.

Geoffrey K.F Tso and Kelvin K.W Yau, “A study of domestic energy usage patterns in Hong Kong”, Energy, vol. 28, No. 15, pp. 1671-1682, December 2003.

Y. G. Yohanis, J.D. Mondol, A. Wright and B.Norton, “Real-life energy use in the UK: how occupancy and dwelling characteristics affect domestic electricity use”, Energy and Buildings, vol. 40, No. 6, pp. 1053-1059, 2008.

M. Bedir, E. Hasselaar and L.Itard, “Determinants of electricity consumption in Dutch dwellings”, Energy and Buildings, vol. 58, pp. 194-207, March 2013.

L. Nielsen, “How to get the birds in the bush into your hand: results from a Danish research project on electricity savings”, Energy Policy, vol. 21, No. 11, pp. 1133–1144, November 1993.

C. Delmastro, G. Mutani, M. Pastorelli, G. Vicentini, “Urban Morphology and Energy Consumption in Italian Residential Buildings”, International Renewable Energy Research and Applications Conference, Italy 22-25 November 2015.

S. Zhou and F. Teng, “Estimation of urban residential electricity demand in China using household survey data”, Energy Policy, vol. 61, pp. 394–402, October 2013.

F. McLoughlin, A. Duffy and M. Conlon, “Characterising domestic electricity consumption patterns by dwelling and occupant socio-economic variables: An Irish case study”, Energy and Buildings, vol. 48, pp. 240–248, May 2012.

K. Papakostas, T. Mavromatis and N. Kyriakis, “Impact of the ambient temperature rise on the energy consumption for heating and cooling in residential buildings of Greece”, Renewable Energy, vol. 35, No. 7, pp. 1376-1379, July 2010.


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