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Policy Study A Study on Impact of Korea’s Policy Instruments for Battery Electric Vehicles (BEVs) and Fuel Cell Electric Vehicles (FCEVs) December 30, 2023

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Series No. 2023-11

Policy Study KOR A Study on Impact of Korea’s Policy Instruments for Battery Electric Vehicles (BEVs) and Fuel Cell Electric Vehicles (FCEVs) #Environment and Energy #General(Other)
DOIhttps://doi.org/10.22740/kdi.ps.2023.11 P-ISBN979-11-5932-884-8 E-ISBN979-11-5932-889-3

December 30, 2023

  • 프로필
    KIM, Hyunseok
Summary
Over the past five years, there has been a swift increase in the registration of clean vehicles, including Battery Electric Vehicles (BEVs) and hydrogen-powered Fuel Cell Electric Vehicles (FCEVs). The total number of registered BEVs and FCEVs reached 1.6% of all vehicles by the end of 2022, driven by various government support policies. In pursuit of its net zero goal, the South Korean government aims to increase the share of BEVs and FCEVs to at least 85% by 2050. The 2023 budget for clean vehicles (3.3 trillion won) accounts for 29.0% of the Ministry of Environment's total budget. Against this backdrop, this study empirically examines the effects of recent deployment policies based on data from newly registered BEVs and FCEVs. Specifically, by compiling datasets of newly registered passenger cars, government subsidy levels, and cumulative charging infrastructure by region from 2019 to 2022, this study conducts regression analyses to determine the impact of regional differences in these variables on the changes in the number of newly registered BEVs and FCEVs, respectively.

The analysis reveals that the price elasticity of newly registered BEVs and FCEVs based on subsidy changes was -1.59 and -2.90, respectively, while the charging infrastructure elasticity was 1.24 and 0.93, respectively. Additionally, the high degree of fiscal independence among local governments and high fuel prices for internal combustion engine vehicles contributed to the increase in new registrations. In the case of EVs, the price elasticity for foreign cars was higher than for domestic cars. Moreover, when analyzing EVs restricted to private use, the price elasticity decreased, and the impact of deploying chargers diminished. Based on the obtained estimates, this study further examines alternative scenarios to evaluate the effectiveness of the EV subsidy policy. It turns out that approximately 27.4% of new registrations over the past four years were attributed to subsidy payments, and that charger installation is more cost-efficient than paying subsidy in terms of government expenditure. Furthermore, a cost-benefit analysis of the subsidy policy indicates that in most scenarios, costs outweigh benefits. However, if carbon emissions from the power sector are zero and the social costs of carbon emissions from internal combustion engine vehicles are high, the benefit-cost ratio (benefit amount ÷ cost amount) increases to 0.97.

Based on the analysis, the main policy implications are as follows. First, as future EV sales must target private use, which is less responsive to price changes, the effectiveness of purchase price support will decrease. Therefore, enhancing charging infrastructure to stimulate demand will become more crucial. From a qualitative standpoint, an effective deployment strategy involves ensuring the proper maintenance, repair, and replacement of previously installed chargers to maintain full functionality and enhance consumer convenience within the charging system. Additionally, enhancing charging infrastructure at mobile hubs such as highway rest stops in line with technological advancements like battery performance improvements would be effective in increasing deployment. For hydrogen cars, the higher price elasticity compared to electric vehicles suggests a greater effect of subsidies on their deployment. However, due to the uncertainty of the eco-friendliness of the hydrogen production process, a promotion strategy considering technological changes is required. Lastly, as the number of clean vehicles continues to grow, reforming the tax system becomes inevitable. This includes an overall reform of the tax structure applied to fossil fuels, alongside comprehensive investigations to secure a competitive advantage for clean vehicles during operation.
Contents
Preface
Executive Summary

Chapter 1 Introduction

Chapter 2 Trends in Clean Vehicle Deployment
 Section 1 Types of Clean Vehicles
 Section 2 Trends in Clean Vehicles Deployment
 Section 3 Trends in the Supply of Charging Facilities

Chapter 3 Current Status of Clean Vehicle Deployment Policies
 Section 1 Support at the Purchase Stage
 Section 2 Support for the Ownership Stage
 Section 3 Central Government Financial Expenditure

Chapter 4 Effectiveness of Clean Vehicle Deployment Policies
 Section 1 Literature Review and Methodology
 Section 2 Data
 Section 3 Analysis Results

Chapter 5 Costs and Benefits of Clean Vehicle Deployment Policies
 Section 1 Review of Alternative Scenarios
 Section 2 Cost-Benefit Analysis of Deployment Policies

Chapter 6 Synthesis of the Discussion and Policy Implications
 Section 1 Key Conclusions
 Section 2 Policy Implications

References
Appendix
ABSTRACT
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