Elsevier

Energy Economics

Volume 59, September 2016, Pages 149-158
Energy Economics

Modelling residential electricity demand in the GCC countries

https://doi.org/10.1016/j.eneco.2016.07.027Get rights and content
Under a Creative Commons license
open access

Highlights

  • Residential electricity demand for Bahrain, Kuwait, Oman, and Saudi Arabia

  • Estimated residential electricity demand relationships using STSM/UEDT approach

  • LR income and price elasticities from 0.43 to 0.71 and − 0.16 to zero respectively

  • Impact CDD elasticities from 0.2 to 0.7

  • Estimated UEDTs suggest exogenous electricity using behaviour.

Abstract

This paper aims at understanding the drivers of residential electricity demand in the Gulf Cooperation Council countries by applying the structural time series model. In addition to the economic variables of GDP and real electricity prices, the model accounts for population, weather, and a stochastic underlying energy demand trend as a proxy for efficiency and human behaviour. The resulting income and price elasticities are informative for policy makers given the paucity of previous estimates for a region with particular political structures and economies subject to large shocks. In particular, the estimates allow for a sound assessment of the impact of energy-related policies suggesting that if policy makers in the region wish to curtail future residential electricity consumption they would need to improve the efficiency of appliances and increase energy using awareness of consumers, possibly by education and marketing campaigns. Moreover, even if prices were raised the impact on curbing residential electricity growth in the region is likely to be very small given the low estimated price elasticities—unless, that is, prices were raised so high that expenditure on electricity becomes such a large proportion of income that the price elasticities increase (in absolute terms).

JEL classification

C22
Q41
Q43

Keywords

GCC residential electricity demand
Structural time series model
Impact of weather and exogenous underlying energy demand trend (UEDT)

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