The Economics of Electric Vehicles with Application to Electricity Grids

Author:

van Kooten G. Cornelis12ORCID,Stobbe Tracy E.2

Affiliation:

1. Department of Economics, University of Victoria, Victoria, BC V8W 2Y2, Canada

2. School of Business, Trinity Western University, Langley, BC V2Y 1Y1, Canada

Abstract

Governments around the world promote the purchase of electric vehicles (EVs) as part of their climate change strategy, with many committing to EV-only sales of new passenger vehicles by 2035 and complete use of EVs by 2045 (California) or 2050 (e.g., Canada, EU). Rebates (purchase subsidies) are offered to consumers to promote uptake of EVs, and growth in their uptake has been quite strong, although EVs remain a small proportion of registered vehicles. In this study, we first analyze the economics of EV subsidies and then use Canadian electrical generation capacity, EV efficiency data, and distances driven, along with Monte Carlo simulation, to project the increased demands that greater numbers of EVs will place on an electrical grid. We find that the current grid’s capacity will not be adequate to power the anticipated growth in EVs, and major new power plants or hydroelectric dams will need to be constructed. The analysis suggests that Canada might need to build 17 new hydroelectric facilities or 14 additional gas plants, as there is likely to be much resistance to new hydroelectric projects.

Publisher

MDPI AG

Reference38 articles.

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2. Government of Canada (2024, July 19). Clean Energy Regulations. Available online: https://www.canada.ca/en/services/environment/weather/climatechange/climate-plan/clean-electricity-regulation.html.

3. Jaeger, J. (2023). These Countries Are Adopting Electric Vehicles the Fastest, World Resources Institute. Available online: https://www.wri.org/insights/countries-adopting-electric-vehicles-fastest.

4. Giswold, J., and Dong, M. (2024, August 15). Costing Support for EV Battery Manufacturing, Available online: https://distribution-a617274656661637473.pbo-dpb.ca/eaafeb418199ab141962f0b62dae824e9ab2efa95e5baddd1fb5ad774a3fe984.

5. BC Hydro (2024, April 04). Press Release: Statement from BC Hydro on Site C Project. Available online: https://www.sitecproject.com/site-c-statement.

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