Abstract
Electrifying transport to meet local pollution and overall net zero carbon ambitions is now a key UK policy focus, but this will have important impacts on the energy system, the economy, and the environment. Understanding the changes that the electrification of transport will bring is crucial for developing sustainable policies for net zero goals and a just transition. A literature is emerging to analyse the impact of a large-scale penetration of electric vehicles (EVs), but generally limiting focus to the implications for the electricity network. In this paper, we aim to provide insight on the wider energy system impacts of the expected EV rollout in the UK, in terms of fuel changes, energy costs, CO2 emission reduction and network investments; and how different EV charging strategies increase or mitigate the impacts of the expected large-scale penetration of EVs. Results show that non-smart and/or decentralised charging will require considerably larger investments on the network to accommodate new EV demand. Network reinforcement costs are passed to the consumer via increased electricity prices and, albeit reduced, emissions shift from the transport to the power sector. These results show the importance of considering the whole energy system and the wider economy, to avoid carbon leakage and to maximise the effectiveness of policies.
Highlights
As part of their actions to tackle climate change and local pollution, a number of countries around the world are pushing ambitious targets to electrify transport
We use the UK The Integrated MARKAL-EFOM System (TIMES) (UKTM) energy system model [6] to test the impact of different electric vehicles (EVs) charging strategies in a context of high EV penetration
We focus our analysis to a number of policy-relevant variables including: changes in the energy mix and its related emis sions, increased network investments, and changes in car energy use and energy costs for the final consumer
Summary
As part of their actions to tackle climate change and local pollution, a number of countries around the world are pushing ambitious targets to electrify transport The aim is both to reduce greenhouse gas (GHG) emissions and to improve air quality in urban centres [1]. Ireland, Iceland, Denmark and the Netherlands have set a similar ban on petrol and diesel cars by 2030, whereas Nor way, which currently shows the largest EV uptake in Europe, has set the target for 2025 [5] Such a major shift is likely to bring important challenges to the en ergy system, as the new electric load to charge EVs is likely to require new generation capacity and considerable network reinforcements. EV charging strategies have been widely studied, analysing potential benefits for the power system, but the impacts of the location of the charge in the network (centralised vs decentralised) has not received much attention and the focus has not extended beyond the power sector
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