Replacing petrol-powered cars with electric ones is a critical part of decarbonizing transport towards net zero targets by 2050. Yet, electric vehicles are considered by many as a luxury gadget, out of reach for the average new car buyer. Using real-world total cost of ownership (TCO) scenarios, we demonstrate that EV costs have fallen enough to reach a critical inflection point for mass adoption.
TCO calculations can be revealing as the cost of a car at purchase represents around half of its TCO. Beyond that, energy and ongoing maintenance costs dominate. This is where the TCO shifts in favor of EVs. Thanks to the simpler nature of an electric powertrain, EVs have fewer parts and are easier to maintain compared to ICEs. Moreover, the availability of renewable electricity, either from an at-home solar installation or from the grid, mean EV energy costs are modest, whereas they remain high for combustion cars. In fact, with incentives, the cheapest car to own in Europe is now an EV.
In France, a blue-collar worker commuting 100 km a day round-trip, was best served by an EV. Despite a higher initial sticker price, the low cost of charging at home or work made the EV immediately competitive based on operating costs. Similar results were found for an economy-car consumer in Italy, though EV-ICE price parity was reached slightly further out due to other cost differences.1
Though incentives such as purchase subsidies and road tax exemptions lower the TCO for EVs at the outset, their costs to governments are high and they will eventually fade. In some markets they are already unnecessary for EVs to reach cost parity. Switzerland, for example, is subsidy-free. There, a young, suburban family can already have a fully electric SUV at virtually the same price as the petrol-burning version; and over time the EV’s TCO is lower (See Figure 1).2
Urban settings offered more challenges. Our UK and German scenarios considered young professionals living in flats in second-tier cities. In both cases, use of street parking and public chargers are the norm. Charging in public is more expensive relative to home installations, which lowered the EVs immediate operating cost advantage. However, after five years, electric charging is cheaper than petrol fueling, making EVs more attractive for urbanites.3
Cheap petrol and attractively priced SUVs made the US market the only scenario where the TCO for EVs failed to beat their ICE counterparts. EV retail prices will need to fall further to offset the low cost of ICEs in local US markets.
The cheapest car to own in Europe is now an EV
Our TCO analysis was done using 2021 prices but war in Ukraine has increased the price of many commodities, notably crude oil and nickel. Neither dramatically alters our findings. In fact, it only increases the attractiveness of EVs. Petrol prices in the markets we considered have appreciated considerably, while electricity prices have remained stable. In markets where electricity is produced without burning fossil fuels (i.e., nuclear, hydropower, wind, solar) prices are virtually unchanged. Where oil and natural gas are used, electricity prices have risen, but less than petrol.
The price of nickel, a key component in EV batteries, is also rising. However, battery manufacturers typically secure supplies and prices via long-term contracts, which means there should be minimal impact in the short term. Even if nickel prices remain elevated and filter through to higher EV prices, cheaper operating costs over a vehicle’s lifetime would still outweigh upfront cost increases.
The TCO scenarios presented are another example of how maturing technologies are driving down costs in automotive markets. It also clearly indicates that European markets have reached an inflection point for EV adoption, reflected in the building sales momentum. In 2019, EVs represented 3% of car sales in Europe. In 2021, that jumped to around 17% (See Figure 2).
More importantly, reaching this inflection point is what matters as once an EV is cheaper to own, it can compete on other features including driving performance, reliability, comfort, and convenience, in addition to being cleaner for the environment. Moreover, increases in charging infrastructure and EV driving distances are reducing consumer range anxiety.
Major European markets have reached an inflection point for EV adoption
EV sales are gaining traction as both newcomers and legacy car makers invest in EV production capacity and release new models. We estimate that this transformation in the industry will result in EVs representing half of all new cars sold globally in 2030.
The electrification of transportation not only benefits the environment, but also consumers’ wallets. As existing car manufacturers shift production to EVs, and new manufacturers enter the market, the adoption of EVs will continue to increase. These are structural growth drivers for companies in the supply chain.
The Smart Mobility strategy invests in companies along the entire EV value chain, from manufacturers designing, assembling and marketing the vehicles which consumers want, to companies providing advanced semiconductors which allow for greater energy efficiency and vehicle intelligence, all the way through to companies which test components such that they can deliver the reliability and safety which vehicles demand.
Our total cost of ownership scenarios are present-day indicators of an industry in rapid transition, as it moves away from a fossil-fuelled past and embraces a low-emission future.
1 In France and Italy, the Dacia Sandero (an ICE) was compared to the Dacia Spring Electric (an EV).
2 In the US and Switzerland, the Skoda Kodiaq (an ICE) was compared to its EV alternative, the Skoda Enyaq.
3 In the UK and Germany, the Volkswagen Golf (an ICE) was compared to the Volkswagen ID3 (an EV).
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