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Averting Expenditures and Willingness to Pay for Electricity Supply Reliability

Published online by Cambridge University Press:  01 December 2020

Naghmeh Niroomand
Affiliation:
Automotive Powertrain Technologies Laboratory, Empa - Swiss Federal Laboratories for Materials Science and Technology, Ueberlandstrasse 129, CH-8600Duebendorf, Switzerland
Glenn P. Jenkins*
Affiliation:
Department of Economics, Queen’s University, Kingston, ONK7L 3N6, Canada Department of Economics, Eastern Mediterranean University, Mersin10, Turkey
*

Abstract

Nepal has suffered from the worst electricity shortages in South Asia. This study is an attempt to measure the willingness to pay for an improved service using a model of revealed preference. Respondents are asked about the actions they are taking to reduce the impact on their household or business of scheduled and unscheduled outages and more stable voltage. We estimate the averting expenditures that were being incurred to compensate for the lack of reliability of the electricity service. The estimated cost of the averting actions as a percentage of the electricity bills is 53 % for households, 47 % for small businesses, 46 % for medium businesses, and 35 % for large businesses. Based on the estimations, we find that in 2017 the annual benefit from improving the reliability of the electricity service would be approximately US$ 188 million with a present value over 20 years of US$ 1.6 billion.

Type
Article
Copyright
© The Author(s), 2020. Published by Cambridge University Press on behalf of the Society for Benefit-Cost Analysis

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References

Adhikari, S., 2012. “Electricity Demand Side Management of Residential Sector in Kathmandu Valley.” International Conference in Technology and Innovation Management, Kathmandu, Nepal. Kathmandu: Pulchowk Campus, Institute of Engineering, Tribhuvan University.Google Scholar
Advanced Energy Centre (MaRS). 2016. “MaRS Market Insights.” Market Information Report: Nepal. Ontario, Canada: MaRS, 164.Google Scholar
Aklin, M., Cheng, C., Urpelainen, J., Ganesan, K., and Jain, A.. 2016. “Factors Affecting Household Satisfaction with Electricity Supply in Rural India.” Nature Energy, 1(11): 16170, https://doi.org/10.1038/nenergy.2016.170CrossRefGoogle Scholar
Bartik, T. J., 1988. “Evaluating the Benefits of Non-Marginal Reductions in Pollution Using Information on Defensive Expenditures.” Journal of Environmental Economics and Management, 15(1): 111127.CrossRefGoogle Scholar
Bhatt, R. P. 2017. “Hydropower Development in Nepal – Climate Change, Impacts and Implications.” In Ismail, Basel I. and I. Rijeka (Eds.) Renewable Hydropower Technologies, Croatia: IntechOpen. https://doi.org/10.5772/66253.Google Scholar
Blankenshipa, B., Chun Yu Wongb, J., and Urpelainenc, J.. 2019. “Explaining Willingness to Pay for Pricing Reforms that Improve Electricity Service in India.” Energy Policy, 128: 459469.CrossRefGoogle Scholar
Bockstael, N., and McConnell, K.. 1999. “The Behavioral Basis of Non-Market Valuation.” In Herriges, J. A. and C. L. Kling (Eds.) Valuing Recreation and the Environment: Revealed Preference Methods in Theory and Practice, New Horizons in Environmental Economics. Cheltenham, UK and Northampton, MA: Edward Elgar Publishing.Google Scholar
Bose, R. K., and Shukla, M.. 2001. “Electricity Tariffs in India: An Assessment of Consumers’ Ability and Willingness to Pay in Gujarat.” Energy Policy, 29(6): 465478.CrossRefGoogle Scholar
Carlsson, F., and Martinsson, P.. 2007. “Willingness to Pay Among Swedish Households to Avoid Power Outages – A Random Parameter Tobit Model Approach.” Energy Journal, 28(1): 7590.CrossRefGoogle Scholar
Carlsson, F., and Martinsson, P.. 2008. “Does it Matter When a Power Outage Occurs? – A Choice Experiment Study on the Willingness to Pay to Avoid Power Outages.” Energy Economics, 30(3): 12321245.CrossRefGoogle Scholar
Carlsson, F., Martinsson, P., and Akay, A.. 2011. “The Effect of Power Outages and Cheap Talk on Willingness to Pay to Reduce Outages.” Energy Economics, 33(5): 790798.CrossRefGoogle Scholar
CBS. 2016. Statistical Yearbook of Nepal. Kathmandu: Central Bureau of Statistics.Google Scholar
Chakravorty, U., Pelli, M., and Marchand, B. U.. 2014. “Does the Quality of Electricity Matter? Evidence from Rural India.” Journal of Economic Behavior & Organization, 107: 228247.CrossRefGoogle Scholar
Department of Industry. 2014. Industrial Statistics. Government of Nepal, Ministry of Industry. Available at http://doind.gov.np. (accessed September 10, 2017)Google Scholar
Golam Ahamad, M., and Nazrul Islam, A. K. M.. 2011. “Electricity Consumption and Economic Growth Nexus in Bangladesh: Revisited Evidences.” Energy Policy, 39(10): 61456150.CrossRefGoogle Scholar
Hashemi, M., Jenkins, G. P., Jyoti, R., and Ozbafli, A.. 2018. “Evaluating the Cost to Industry of Electricity Outages.” Energy Sources, Part B: Economics, Planning, and Policy, 13(7): 340349.CrossRefGoogle Scholar
Hensher, D. A., Shore, N., and Train, K.. 2014. “Willingness to Pay for Residential Electricity Supply Quality and Reliability. Applied Energy, 115: 280292.CrossRefGoogle Scholar
Hwang, B. S., and Yoo, S. H.. 2016. “Electricity consumption and economic growth in Nicaragua.” Energy Sources, Part B: Economics, Planning, and Policy, 11(8): 746752.CrossRefGoogle Scholar
Ju, H. C., Yoo, S. H., and Kwak, S. J.. 2016. “The Electricity Shortage Cost in Korea: An Input-Output Analysis.” Energy Sources, Part B: Economics, Planning, and Policy, 11(1): 5864.CrossRefGoogle Scholar
MCC. 2018. Nepal Compact. Washington, DC: Millennium Challenge Corporation. Available at https://data.mcc.gov/evaluations/index.php/catalog/194/related_materials. (accessed October 25, 2018)Google Scholar
NEA. 2011. Annual Report of Nepal Electricity Authority. Kathmandu: Nepal Electricity Authority.Google Scholar
NEA. 2014. Annual Report of Nepal Electricity Authority. Kathmandu: Nepal Electricity Authority.Google Scholar
NEA. 2017. Annual Report of Nepal Electricity Authority. Kathmandu: Nepal Electricity Authority.Google Scholar
Niroomand, N., and Jenkins, P.G.. 2020. “Estimation of Households' and Businesses' Willingness to Pay for Improved Reliability of Electricity Supply in Nepal.” Energy for Sustainable Development, 55: 201209.CrossRefGoogle Scholar
NLSS. 2011. Nepal Living Standard Survey, Central Bureau of Statistics – National Planning Commission Secretariat, Government of Nepal. Available at http://cbs.gov.np/. (accessed September 1, 2017)Google Scholar
Oseni, M. O. 2017. “Self-Generation and Households’ Willingness to Pay for Reliable Electricity Service in Nigeria.” Energy Journal, 38(4): 165194.CrossRefGoogle Scholar
Oseni, M. O., and Pollitt, M. G.. 2013. The Economic Costs of Unsupplied Electricity: Evidence from Backup Generation Among African Firms. Working Paper, University of Cambridge, Faculty of Economics. https://doi.org/10.17863/CAM.5715.CrossRefGoogle Scholar
Ozbafli, A., and Jenkins, G. P.. 2015. “The Willingness to Pay by Households for Improved Reliability of Electricity Service in North Cyprus.” Energy Policy, 87: 359369.CrossRefGoogle Scholar
Rajbhandari, U. S., and Nakarmi, A. M.. 2014. “Energy Consumption and Scenario Analysis of Residential Sector Using Optimization Model – A Case of Kathmandu Valley.” In Proceedings of IOE Graduate Conference, Kathmandu, Nepal. 477–483.Google Scholar
RIC. 2005. Customers’ willingness to pay for changes in water, wastewater and electricity services in Trinidad and Tobago – a survey. Regulated Industries Commission, Information Document, ER/001/05. Available at www.ric.org.tt/home/news/RevisedWTPReportJuly2004.pdf. (accessed March, 2009)Google Scholar
Silberberg, E., and Suen, W.. 2001. The Structure of Economics: A Mathematical Analysis, 3rd ed. Singapore: McGraw-Hill.Google Scholar
Steinbuks, J., and Foster, V. 2010. “When do firms generate? Evidence on in-house electricity supply in Africa.” Energy Economics, 32(3): 505514.CrossRefGoogle Scholar
WECS. 2010. Energy Synopsis Report: 2010. Water and Energy Commission Secretariat (WECS): Kathmandu: WECS. Available at http://www.wecs.gov.np/uploaded/snyopsis.pdf.Google Scholar
World Bank. 2011. Electric Power Consumption (kWh per Capita). Available at http://data.worldbank.org/indicator/EG.USE.ELEC.KH.PC. (accessed October 13, 2017)Google Scholar
World Bank. 2015. Cross-Border Electricity Cooperation in South Asia. Policy Research Working Paper 7328.Google Scholar
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