It’s time to tell the truth about lithium-ion battery-powered electric cars. The manufacture of a lithium-ion battery-powered EV generates much greater carbon emissions than for a conventional car. And the safety issues associated with them have been underplayed.

From NOT A LOT OF PEOPLE KNOW THAT

By Paul Homewood

h/t Paul Kolk

This is a good round up of the EV market:

Fire Risk

On 10 October a fire broke out at the Terminal 2 car park at London Luton Airport (which is located 32 miles from central London). It raged for nearly a day and resulted in the complete shut-down of the airport causing massive disruption for travellers. By the time firefighters extinguished the blaze it became apparent that around 1,500 vehicles, mostly parked there by holidaymakers, had become burnt-out wrecks. Fortunately, no one was killed or injured, but the economic cost going forward will be colossal.

CCTV footage suggests that the fire broke out in a parked diesel SUV – an unusual event (though, interestingly, there was no thick black smoke as one might have expected from a diesel fire, so the origin of the fire is contested). But one of the reasons the fire spread with such intensity was that a number of electric cars caught fire. Notoriously, once a lithium-ion battery catches fire it is almost impossible to extinguish it until all its chemical components have been consumed. These unstoppable chemical fires are called “thermal runaways” by the cognoscenti as they can sustain themselves without a supply of oxygen. They emit toxic gases including hydrogen cyanide and hydrogen fluoride, so firefighters require special gear when they tackle them.

In the past couple of years, two container ships carrying thousands of EVs have gone up in flames. A fire on board car carrier Felicity Ace in February 2022 led to the vessel sinking in the Atlantic, along with its cargo of 4,000 vehicles. Lithium-ion batteries were cited as a factor in keeping the fire ablaze. And in July this year, the Fremantle Highway cargo ship caught fire in the North Sea. It was alleged that batteries in EVs on board had overheated. During the salvage operation, all the cars were washed to remove any chemicals from the fire before they were taken off the ship. One charred vehicle, in which the fire appeared to be extinguished, reignited as it was lowered into the water.

Or consider that Paris’s metropolitan transport authority withdrew 149 electric buses from operation last year after two ignited in separate incidents.

It should come as no surprise, then, that according to a new report from the building consultants Arup, our car parks may need to become a lot more spacious because of the fire risk posed by electric cars. Parking spaces will have to be wider, or cars will have to be parked further apart because of the danger of electric battery fire contagion. That means fewer parking places – and higher parking charges.

Moreover, cash-strapped local governments will have to build more multi-storey car parks, which will have to be robust enough to support the weight of cars which weigh, in many cases, double what their petrol-powered forebears weighed. (The Audi E-tron weighs 2,351 kilos).

An EV battery weighs about 500 kilos – so hopefully your local authority will not use aerated concrete this time round. The same applies to bridges. (If readers have noticed a spate of road and bridge closures across the UK due to engineering issues, please let me know – I’m compiling a dossier). Roads will have to be re-surfaced more frequently as these heavy monsters take their toll, making the ubiquitous pot holes even worse.

Meanwhile, the automobile insurers have cottoned on, at last. The cost of insuring an EV is soaring. Insurers are struggling to anticipate the costs of battery repairs, according to Thatcham Research. Some EVs are effectively being written off because relatively minor scrapes can destabilise battery cells, requiring extensive repairs to their batteries. What’s more, damaged batteries are more prone to thermal runaways, which raises the nightmare of spontaneous combustion.

As a result, Aviva withdrew insurance products for the Tesla Model Y earlier this year before reinstating them several months later; and John Lewis Finance has stopped insuring EVs at all, at the request of its French underwriter, Covéa. Other motor insurers have been raising premiums on EVs as estimates of repair costs rise, according to the Association of British Insurers. Average annual electric car insurance premiums rose 72 percent in the year to September, compared to 29 percent for petrol and diesel models, according to Confused.com. The price comparison website notes that premiums for the Tesla Model 3s have risen by more than two thirds over the last two years.

One reason why repair costs are rising is that repair shops are now advised to keep EVs at least 50 feet apart in case of an explosion. Obviously, this limits the number of cars that can be repaired at any one time meaning that repairs will take longer.

The EV future: More Traffic Jams

The government’s plan for the adoption of electric cars, called the ZEV Mandate 2024, will require 22 percent of cars sold by manufacturers in the UK to be electric from next year. By 2030, that quota will rise to 80 and, of course, to 100 percent by 2035. Carmakers which cannot hit the annual targets must either sell more electric vehicles in future years, purchase credits from rivals or pay a fine of £15,000 per car. That means that, whatever their drawbacks, and however dangerous and unpopular they are, thanks to state intervention the number of EVs on our roads is likely to surpass the number of conventional cars some time before the end of this decade.

How will that affect the state of traffic on our roads? The Department of Transport recently published a study on this question. It concluded that because EVs are cheaper to run than conventional cars the cost differential between a journey in an EV and one on our expensive public transport system will widen. Therefore, people will make more car journeys – and traffic congestion will worsen. It’s kind of the DoT to let us know.

There will be those who argue that this issue is simply resolved by building more roads. No doubt there will be residential road building at scale in response to Labour’s plan to build 300,000 new homes a year which I discussed recently. The problem here is one of Parkinson’s Law: just as bureaucracy expands to fill the time available to it, so the number of cars on the road rises in tandem with the size of the road network. Professor Andrew Graves of the University of Bath, doubts that building more roads will halt the threat of congestion. “The more roads you build, the quicker you’ll fill them up”, he told the Daily Telegraph last week.

It would be paradoxical if a policy designed to save the planet resulted in concreting over more of our countryside

EV Sales Slow

Car dealers in the UK are reporting that electric cars are taking longer to sell than conventional internal combustion engine-powered cars. Unsold inventory is starting to stack up, which is why some EVs are now on offer at a discount. Global EV sales grew by 49 percent in the first half of this year – but that is well down from the 63 percent growth achieved last year. What’s more, the global figure is skewed by China, which is responsible for 55 percent of all EVs sold worldwide.

One reason why EVs are failing to impress the punters is that there are too few charging stations and too many charge-points are out of service, forcing people to drive elsewhere in a desperate search for power. The more EVs there are on the road, the more competition there is for charge points – hence reports of people having to queue for an hour or more to charge their car.

Also, the range of EVs is often less than advertised. The range of an EV tends to decline as the battery gets older, although reportedly manufacturers are working on this. EVs are still much more expensive than their petrol and diesel-powered analogues. Their second-hand value is difficult to assess as there is no deep second-hand market as exists for petrol and diesel cars. Their batteries last no more than 15 years and are expensive to replace.

Reading The Runes

It’s time to tell the truth about lithium-ion battery-powered electric cars. The manufacture of a lithium-ion battery-powered EV generates much greater carbon emissions than for a conventional car. And the safety issues associated with them have been underplayed.

The determination of governments in the EU and the UK to force automotive giants in the direction of one single fundamentally flawed technology, while proscribing any alternative internal combustion engine technologies, will come be seen as a huge mistake. If it had been left to the market we would have got to minimal carbon quicker. (Zero CO2 emissions is a chimera – you emit CO2 every time you exhale!).

It’s akin to the Locomotives Act of 1865 which compelled a man waving a red flag to walk in front of any horseless carriage. (Happily, that was repealed in 1896). It will saddle Europe and the UK with a massive competitive disadvantage, since no other continent is likely to embark on parallel policy.

Full story here.