Are electric cars too heavy for British roads, bridges and car parks?

EVs are too heavy

Cars have got bigger and bigger, with the rise of the SUV only accelerating the trend. Composite: Guardian Design/Getty Images

Cars have got bigger and bigger, with the rise of the SUV only accelerating the trend. Composite: Guardian Design/Getty Images

Are electric cars too heavy for British roads, bridges and car parks?

In part eight of our series exploring myths surrounding EVs, we examine whether they will break our infrastructure

Cars have a weight problem. Consider the Mini, designed to save precious fuel during rationing; it has ballooned in size. It is not alone. Cars have got bigger and bigger, with the rise of the SUV only accelerating the trend.

Electric cars might look the same (for now) but they have one important difference: a heavy battery.

Our EV mythbusters series has taken a wild ride through the common (but often misinformed) criticisms of electric cars, from range anxiety to carbon emissions, mining and air pollution. This final instalment asks: will electric cars prove to be too heavy for our roads and infrastructure?

The claim

After years of bloat on our roads, the extra battery burden has prompted some people to wonder if the advent of the electric car will break our roads, bridges and car parks.

Matthew Lynn, a columnist at the Daily Telegraph, this month wrote: “It’s far from clear that the charging infrastructure will be in place, or whether roads and bridges will cope with the heavier vehicles.”

Greg Knight, a Conservative MP, last year asked the UK government to test “the adequacy of the strength of multistorey car parks and bridges at safely bearing the additional weight of electric vehicles”.

The Asphalt Industry Alliance has claimed that smaller roads could be vulnerable to increased pothole formation, and the Daily Mail wrote: “Multistorey car parks could be at risk of collapsing.”

The science

Electric cars can be very heavy. Car magazine said General Motors’ gargantuan Hummer “manages to look even heavier than it is” – an impressive achievement, considering it comes in at more than four tonnes. A third of that is the battery pack capable of powering one of the biggest cars over 300 miles. It is big.

A more reasonable electric car would be the Tesla Model Y, at two tonnes. For comparison, Jaguar Land Rover’s Range Rover weighs in at 2.5 tonnes before any people get in, while newer versions of Ford’s F-150 pickup truck – the US bestseller – can weigh as much as 2.7 tonnes depending on the model.

A Tesla Model Y weighs two tonnes – less than a Range Rover or a Ford’s F-150 pickup truck. Photograph: Brendon Thorne/Getty Images

Nevertheless, Transport & Environment, a campaign group, calculates that EVs are on average between 300kg and 400kg heavier. For every 150km of range, it adds about 100kg of battery weight, said Lucien Mathieu, the cars director at the Brussels-based group.

Heavier vehicles mean there is more friction between tyres and road, and more stress on whatever is below the car. That means roads deteriorate quicker. Academics at the University of Edinburgh in 2022 calculated that there could be between 20% and 40% additional road wear – think potholes, the driver’s bane – associated with battery vehicles compared with internal combustion engines.

However, the analysis (which did not carry out real-world tests) found that any extra wear is “overwhelmingly caused by large vehicles – buses, heavy goods vehicles”. Road wear from cars and motorcycles is “so low that this immaterial”, they said.

Additional road wear such as potholes is overwhelmingly caused by large vehicles rather than cars or motorcycles, analysis found. Photograph: Joe Giddens/PA

On to bridges. Colin Walker, the head of transport at the Energy and Climate Intelligence Unit thinktank, said in the UK there are very few roads or bridges with weight limits below 7.5 tonnes. (Anything heavier than 3.5 tonnes needs a lorry licence in the UK, for younger drivers at least.)

Engineers talk about “factors of safety” when designing structures. Take the maximum design load, and then build the structure to take much more stress so there is some breathing room. Steelwork in bridges is typically made with a factor of safety of between five and seven times expected load, giving them an ample margin for 300 extra kilograms.

National Highways, which runs the UK’s motorways and A roads, is not concerned. A spokesperson said: “Our bridges are designed to support 44-tonne heavy goods vehicles, so we have no concerns over the increased weight of much lighter EV cars.”

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Any caveats?

Obviously, there are limits. The increase in size could theoretically cause problems for some of the oldest car parks, according to Kelvin Reynolds, the chief technical services officer at the British Parking Association.

He said car parks built within the last decade or so would not have any problems because they were built with heavy SUVs in mind but “older car parks may present some initial risks that need to be addressed – not that can’t be addressed but that need to be addressed”.

There are options for multistorey car park owners. They could undertake works to strengthen their buildings – although this could be tricky and costly. Or they could cut the number of cars allowed on each floor. That could result in lost profits, even if for many car parks the losses would probably be minimal.

“The transition is going to be the challenge,” Reynolds said. He advised regular surveys by car park owners to make sure their buildings were up to scratch.

Governments could incentivise smaller cars through policies such as taxes and parking charges. Photograph: Christopher Thomond/The Guardian

However, in the longer term, the assumption that electric cars will always be heavier is also open to question. Auke Hoekstra, an energy transition researcher at the Eindhoven University of Technology, estimates that batteries are cramming twice as much energy into the same weight every decade. If that continues, the weight problem will disappear before it has started.

T&E’s Mathieu said governments should incentivise smaller cars through policies such as taxes and parking charges. That would have benefits far beyond road wear: it would use fewer resources, limit carbon emissions, and make car park scrapes less likely.

“It is not inevitable that EVs are much heavier” than internal combustion engine cars, Mathieu said. “We can and should shift from [internal combustion engines] to EVs, while at the same time reversing the SUV trend.”

The verdict

Extra weight from electric cars could cause some problems at the margins, and in the short-term. However, most EV drivers are unlikely to ever experience problems directly.

Some car park owners may be affected, and if electric trucks are heavier when they become widespread that could add to road maintenance costs.

But almost all of the direct costs will be borne by infrastructure maintenance budgets. The ECIU’s Walker said concerns about extra weight for EVs were simply “massively overstated”. However, he added that carmakers do have a responsibility to produce smaller electric cars, after years of focusing on the most profitable SUVs.

The extra weight of electric cars is not likely to accelerate the destruction of roads, bridges and car parks. Weight concerns threaten to be a distraction from the ultimate prize: cutting carbon emissions to net zero.

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