I do find the anti-EV campaigning on social media a bit peculiar. It’s a bit like the arguments for smoking that were made in the 1950s and 60s. Combustion engine vehicles are slowly but surely going to become history. The time for that change is the subject that should be discussed and not whether it’s a good idea or not[1].
One “argument” out there is that adding together all the elements that make-up an electric vehicle there’s a lot of environmental cost in their production. There’s no doubt that nothing is for free. For example, mining lithium and cobalt are not nice in every respect. There’s the concern that demand could quickly eat-up global supply too.
The “arguments” I’ve seen fall apart when considering not only the vehicle production environmental costs but the lifetime costs of an EV when compared with an internal combustion engine vehicle. 20-years of belching out toxic emissions stacks-up. 20-years of using renewable electricity is a far better solution. In theory the potential for recycling valuable materials is high with EVs too. However, we have yet to see if that works successfully in practice.
Other “arguments” look to demean the performance of EV’s when compared to conventional vehicles. Naturally, the time taken to recharge is one of the biggest gripes. For a conventional fuelling at a petrol station a tank can be filled with 500 miles worth of fuel in 15 minutes. For a current EV more preparation, planning and patience are needed to achieve a lesser range.
Some EV performance figures are far superior to conventional air breathing vehicles. Acceleration is one. Powerful electric motors unencumbered by complex mechanical transmission systems react immediately to demands[2]. EVs use power better.
There’s another gripe or moan and that’s about weight. Taking two comparable vehicles, in performance terms, the electric one will be heavier. That’s the technology we have now.
It’s a different kind of weight if that makes any sense. What I mean is that an EV is roughly the same weight whatever the state of the machine. Whereas a vehicle that uses liquid fuel varies in weight according the amount of fuel on-board. Of course, all vehicles vary in weight depending on the payload they carry (goods or passengers or both).
What’s a little difficult to take from the anti-EV lobby is that those who complain about EVs impacting roads, due to their weight, are rarely the same people who express concerns about heavy diesel delivery trucks or Chelsea tractors thundering down residential roads.
There’s one hazard that must be managed for all types of vehicles. A view of a serious fire involving either an EV or a conventional vehicle quickly shows what that threat can do. What we have now less experience dealing with EV fires. They can be severe and difficult to supress.
Regulation is often reactive. The fire threat is real. In this case maybe we do need fire suppression systems in integrated household garages. Multistorey car parks packed full of EVs are going to be a real challenge if a major fire sparks off. That said a fire started with a “diesel-powered vehicle” can be just as challenging[3].
[1] https://www.ft.com/video/95f86c5d-5a94-4e63-bbe8-6cc5ffb59a2b
[2] https://www.caranddriver.com/features/a38887851/why-are-evs-so-quick/
[3] https://www.bbc.co.uk/news/uk-england-beds-bucks-herts-67077996
John Vincent 