New vehicles are inevitable, as older vehicles are eventually infeasible to repair. So, the correct answer is to actually look at lifetime emissions of a vehicle... You can never ignore that initial cost to manufacture, even if you current already own it.
The only way you actually worsen lifetime emissions is if you somehow hoard cars and cause repeated "initial manufacturing emissions" in excess of a typical consumer. Everything else is just moving when you count the consumption.
The system still have some pending inertia to apply, the accumulated greenhouse gases (that would last there 10+ years for methane, and 100+ years for CO2 from their emissions) will keep the warming up the planet. They already triggered feedback loops will add even more greenhouse gases, and increase the rate of warming by i.e. increasing Earth's albedo, so is more than just inertia. The current photo must be complemented by what the system, by itself, will do even without our intervention, how it will keep changing hands off.
With that in mind, what is meaningful to do, what actions will be an environment fixing theather, PR, or just delusional? The most obvious answer is that is not just one thing, is a big pack of measures that should go from changing our lifestyle (and I don't mean personally, I mean civilization level), how is our economy, how we stop worsening the problem, and how we reverse the trends, maybe adding a little geoengineering to perish during the all the time that this will last.
The Ministry for the Future, with its own faults, proposed fixing the problem without magical solutions, was a very complex and diverse process with a lot of moving parts. The biggest fantasy of that book was that everyone was willing to play their part on this, and that everything worked perfectly without falling like a house of cards. Not saying that what should be done is what is described in the book, but whatever is done, won't be just an isolated action.
https://www.epa.gov/greenvehicles/electric-vehicle-myths#Myt...
> Then there's the source of the fuel. An electric vehicle manufactured by burning coal and charged with electricity generated by burning coal is in fact a coal-burning vehicle. Calling it "electric" fits the happy story, but it's not actually factual: a coal-burning vehicle is an environmental disaster, regardless of labels, our opinions or the happy-ending PR.
https://www.epa.gov/greenvehicles/electric-vehicle-myths#Myt...
> Electric aircraft won't "save the world," either. They're resource-hungry, small, slow, their range is modest and their batteries are no more recyclable or long-lasting than all the vehicle batteries destined for the landfill. And alternative fuels for jet aircraft are incapable of being produced at the scale necessary to replace jet fuel. Sorry, no Hollywood ending.
People said this about batteries a decade ago. They were saying it about human flying just over a century ago.
This is not to say that everything is all good, but substantial progress is being made.
[1] In time, energy, money, infrastructure, maintenance, insurance, human health and life lost to accidents and pollution.
Numbers I've seen are 5 ~ 8kWh, that's 20-30 miles of electric driving.
Depending on your gasoline car's efficiency and exact kWh number above, the energy to even produce and deliver the gasoline is higher than actually driving an electric vehicle.
"Greening" the world with electric vehicles will first require a significant and rapid increase in our industrial mineral supply. The IEA predicts a 5x increase in required critical metals over the next 17 years to meet clean energy demands and claims "Today, the data shows a looming mismatch between the world’s strengthened climate ambitions and the availability of critical minerals that are essential to realising those ambitions." [1]. Geologists within the industry are publicly claiming that "Global reserves are not large enough to supply enough metals to build the renewable non-fossil fuels industrial system." [2].
But lets just assume we have enough minerals for the sake of argument. How are we actually going to get it out of the ground and into the supply chain fast enough? More mining. More transport. More industry. More pollution. And more fossil fuel consumption in the short term (though as the EPA notes, the long-term emissions balance favors EVs).
If the green energy revolution is going to come true, we're going to require an expansion of mining capacity that the world has literally never seen. I'm not sure everyone advocating green energy understands exactly what's required to make that happen. But the mining industry is certainly aware of the demand! If we give them the green light and an economic incentive, they'll strip mine every mountain in the global south just so everyone in the global north can drive an EV.
[1] https://www.iea.org/reports/the-role-of-critical-minerals-in...
It makes more sense in almost every case, if you're concerned about emissions, to just buy used whenever possible. This applies across many kinds of products.
Circular economy and cutting excess production are way more effective for mitigating emissions than buying new $SHINY_GADGETs but the nascent cultural default is to buy new because of this or that feel-good ads campaign and/or some kind of stigma around buying things that were previously someone else's.
And if you buy a vehicle used, you're preventing someone else from buying and using that vehicle.
Your argument only really works if you buy a car that was destined for the scrap heap and fix it to make it usable.
This just feels like a super defeatest post.
also worth noting that there are some extremely questionable titles under the other books by the author section
not saying it’s all wrong, just- check your references before falling down this particular nihilistic logic path.
The necessary actions require leadership: end meat agriculture, end FF extraction, and massive bio-assisted CCS.
