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The Relationship between Electricity Prices and Household Welfare in South Africa

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  • Bekithemba Qeqe

    (Department of Economics, University of Fort Hare, East London 5200, South Africa)

  • Forget Kapingura

    (Department of Economics, University of Fort Hare, East London 5200, South Africa)

  • Bahle Mgxekwa

    (Department of Economics, University of Fort Hare, East London 5200, South Africa)

Abstract

The study examines the relationship between electricity prices and household welfare in South Africa. The study employs a demand system framework on annual time-series data from 2000 to 2018 and the analysis involves the calculation of price elasticities and measurement of welfare changes. The price elasticities in this study are drawn from the linear expenditure demand model. To analyse welfare change, we consider the impact of electricity pricing policies on cost of living (proxied by the consumer price index and households’ expenditure patterns). The study achieves this: (i) by comparing electricity price movements to changes in the rate of inflation between 2000 and 2018; (ii) by regressing total household energy expenditure against household expenditure on electricity, to examine how electricity costs affect a household’s overall energy bills; and (iii) thirdly, by regressing household food expenditure against households’ electricity expenditure to determine how the latter affects a household’s ability to spend on other basic goods and services. The results of the study show: (i) South African household electricity demand is inelastic to changes in price of electricity; (ii) electricity prices in the country increased at a higher rate than the rate of inflation for most of the time during the study period, suggesting that households incurred increased expenditures to achieve their desired utility or satisfy their energy needs during this period; (iii) household total electricity expenditure is positively related to household total energy expenditure, implying that high household expenditure on electricity exerts upward pressure on the overall household energy budgets; and (iv) household total food expenditure is negatively related to household total energy expenditure. This shows that while policy makers achieved significant success with providing physical access to electricity, affordable access to this basic service is still a concern and affects the overall welfare of households in the country. The study recommends a review of the country’s electricity tariff structure to make affordability a key objective. Moreover, the study calls for coordinated efforts in addressing Eskom challenges which have also played a contributing role to the current energy crisis, characterized by an unreliable electricity supply and constantly increasing electricity prices.

Suggested Citation

  • Bekithemba Qeqe & Forget Kapingura & Bahle Mgxekwa, 2022. "The Relationship between Electricity Prices and Household Welfare in South Africa," Energies, MDPI, vol. 15(20), pages 1-15, October.
  • Handle: RePEc:gam:jeners:v:15:y:2022:i:20:p:7794-:d:949199
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    References listed on IDEAS

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    1. Bohlmann, J.A. & Inglesi-Lotz, R., 2021. "Examining the determinants of electricity demand by South African households per income level," Energy Policy, Elsevier, vol. 148(PA).
    2. Ye, Yuxiang & Koch, Steven F., 2021. "Measuring energy poverty in South Africa based on household required energy consumption," Energy Economics, Elsevier, vol. 103(C).
    3. Paul J. Burke & Ashani Abayasekara, 2018. "The Price Elasticity of Electricity Demand in the United States: A Three-Dimensional Analysis," The Energy Journal, , vol. 39(2), pages 123-146, March.
    4. Jerzy Andruszkiewicz & Józef Lorenc & Agnieszka Weychan, 2019. "Demand Price Elasticity of Residential Electricity Consumers with Zonal Tariff Settlement Based on Their Load Profiles," Energies, MDPI, vol. 12(22), pages 1-22, November.
    5. Renner, Sebastian & Lay, Jann & Schleicher, Michael, 2019. "The effects of energy price changes: heterogeneous welfare impacts and energy poverty in Indonesia," Environment and Development Economics, Cambridge University Press, vol. 24(2), pages 180-200, April.
    6. Halicioglu, Ferda, 2007. "Residential electricity demand dynamics in Turkey," Energy Economics, Elsevier, vol. 29(2), pages 199-210, March.
    7. Carlo Andrea Bollino & Fabrizio Botti, 2017. "Energy Poverty in Europe: A Multidimensional Approach," PSL Quarterly Review, Economia civile, vol. 70(283), pages 449-472.
    8. Tuttle, Charlotte & Beatty, Timothy K. M., 2017. "The Effects of Energy Price Shocks on Household Food Security in Low-Income Households," Economic Research Report 260484, United States Department of Agriculture, Economic Research Service.
    9. Inglesi-Lotz, Roula & Blignaut, James N., 2011. "South Africa’s electricity consumption: A sectoral decomposition analysis," Applied Energy, Elsevier, vol. 88(12), pages 4779-4784.
    10. Phoumin, Han & Kimura, Fukunari, 2019. "The impacts of energy insecurity on household welfare in Cambodia: Empirical evidence and policy implications," Economic Modelling, Elsevier, vol. 82(C), pages 35-41.
    11. Imhotep P. Alagidede & Tamara E. Mughogho, 2019. "Capital Account Liberalization and Capital Flows to Sub-Saharan Africa: A Panel Threshold Approach," Working Papers 203, Economic Research Southern Africa.
    12. Taljaard, Pieter R. & Alemu, Zerihun Gudeta & van Schalkwyk, Herman D., 2004. "The demand for meat in South Africa: An almost ideal estimation," Agrekon, Agricultural Economics Association of South Africa (AEASA), vol. 43(4), pages 1-14, December.
    13. James Banks & Richard Blundell & Arthur Lewbel, 1997. "Quadratic Engel Curves And Consumer Demand," The Review of Economics and Statistics, MIT Press, vol. 79(4), pages 527-539, November.
    14. Alexandru Maxim & Costică Mihai & Constantin-Marius Apostoaie & Cristian Popescu & Costel Istrate & Ionel Bostan, 2016. "Implications and Measurement of Energy Poverty across the European Union," Sustainability, MDPI, vol. 8(5), pages 1-20, May.
    15. Widodo, Tri, 2012. "Household’s Welfare Impact of Fuel Subsidy Removal," MPRA Paper 77997, University Library of Munich, Germany.
    16. Shamaila Aziz & Muhammad Rizwan Yaseen & Sofia Anwar, 2016. "Impact of Rising Energy Prices on Consumer’s Welfare: A Case Study of Pakistan," The Pakistan Development Review, Pakistan Institute of Development Economics, vol. 55(4), pages 605-618.
    17. Muhammad Atta-ul-Islam Abrar & Muhsin Ali & Uzma Bashir & Karim Khan, 2019. "Energy Pricing Policies and Consumers’ Welfare: Evidence from Pakistan," Lahore Journal of Economics, Department of Economics, The Lahore School of Economics, vol. 24(1), pages 1-28, Jan-June.
    18. Luisa Natali & Marta Moratti, 2012. "Measuring Household Welfare: Short versus long consumption modules," Papers inwopa671, Innocenti Working Papers.
    19. Kuo S. Huang & Sophia Wu Huang, 2012. "Consumer welfare effects of increased food and energy prices," Applied Economics, Taylor & Francis Journals, vol. 44(19), pages 2527-2536, July.
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