Not quite, but it definitely could if the technology could get some funding to advance it. The batteries, chargers, and electric motors still waste a ton of energy that needs to be considered for overall efficiency. But it usually gets overlooked because it’s harder to quantify without access to a lot of proprietary data.
If we’re talking only moving the car and in optimal weather (EVs have a significant disadvantage in the cold), the combustion engine is still significantly more efficient at creating the kinetic energy from raw oil than an EV from any type of power plant’s fuel. You have to consider all the stuff that happens before the gasoline or electricity gets to the car as well as idle waste. Gasoline in a proper tank evaporates much more slowly than idle batteries lose energy.
If we’re looking at air conditioning and other electrical stuff, the engine and alternator system is probably not quite as efficient at charging the battery as the power grid and EV chargers are. It’s at least closer.
But more efficient batteries and chargers (especially the fast chargers) would probably close the gap. But not likely to happen until the oil industry collapses so the tech gets some real funding. One day it will get there. Combustion tech has no real way to improve efficiency without significantly sacrificing safety. But EVs have lots of room to improve.
Its like reading straight from the fossil fuel propaganda.
Absolutely untrue. All of it. It might have been true 15 years ago but not anymore.
My EV loses about 20% in the cold at its worse. We charge every four days instead of every five. Hardly “significant”.
the combustion engine is still significantly more efficient at creating the kinetic energy from raw oil than an EV from any type of power plant’s fuel
bruh the entire video you’re commenting on here is a 40 minute in depth explanation on how inefficient gasoline engines are at kinetic energy and why hybrids are literally filling that gap
as well as idle waste
This is such an edge case. “Hey if you let your vehicle sit for months on end that energy may go unused”. Not only have I not experienced this, and I’m highly skeptical of this claim, it is overwhelmingly outweighed by how you haven’t literally been burning gasoline the entire life of the vehicle.
If we’re looking at air conditioning and other electrical stuff, the engine and alternator system is probably not quite as efficient at charging the battery as the power grid and EV chargers are. It’s at least closer.
Probably? Tell me how the alternator which is a mini generator is “not quite” s efficient as the industrial generators whose job it is to literally do it 24/7.
Dude we’re already there. We already did close the gap. Literally everything you said was provably false and straight from what big oil wants you to think.
I own an EV personally. I have personally debunked absolutely everything you have said and everything else that has been hurled at me for why they are so horrible. It is by far the easiest vehicle I’ve ever owned, the most reliable, and I will never go back to an ice vehicle. My entire “fill up” equivalent price is $6 of electricity. Total. The total amount of driving to offset the mining/initial construction offsets was about 12k miles, which we are well past. The battery keeps a charge now just as well as the day it rolled off the lot.
So please, feel free to keep throwing more basic “they just won’t work” excuses because I’m literally driving proof every day that they’re wrong.
The idle waste is so stupid I really can’t… Normal gasoline has a shelf life of about 3-6 months depending on climate. After that you should pump it out of the tank. Even diesel should not be stored longer than a year.
This is probably over simplified, a refinery produces anything from plastic to jet fuel and lubricants from the same crude oil batch so while the number might be correct for gasolines part in the mix, removing it from the process would likely cause some efficiency loss in the processes, and those 6kwh would not be reclaimed in full.
With that said, we need to lower dependency on all oil products.
Not quite, but it definitely could if the technology could get some funding to advance it. The batteries, chargers, and electric motors still waste a ton of energy that needs to be considered for overall efficiency. But it usually gets overlooked because it’s harder to quantify without access to a lot of proprietary data.
If we’re talking only moving the car and in optimal weather (EVs have a significant disadvantage in the cold), the combustion engine is still significantly more efficient at creating the kinetic energy from raw oil than an EV from any type of power plant’s fuel. You have to consider all the stuff that happens before the gasoline or electricity gets to the car as well as idle waste. Gasoline in a proper tank evaporates much more slowly than idle batteries lose energy.
If we’re looking at air conditioning and other electrical stuff, the engine and alternator system is probably not quite as efficient at charging the battery as the power grid and EV chargers are. It’s at least closer.
But more efficient batteries and chargers (especially the fast chargers) would probably close the gap. But not likely to happen until the oil industry collapses so the tech gets some real funding. One day it will get there. Combustion tech has no real way to improve efficiency without significantly sacrificing safety. But EVs have lots of room to improve.
Its like reading straight from the fossil fuel propaganda.
Absolutely untrue. All of it. It might have been true 15 years ago but not anymore.
My EV loses about 20% in the cold at its worse. We charge every four days instead of every five. Hardly “significant”.
bruh the entire video you’re commenting on here is a 40 minute in depth explanation on how inefficient gasoline engines are at kinetic energy and why hybrids are literally filling that gap
This is such an edge case. “Hey if you let your vehicle sit for months on end that energy may go unused”. Not only have I not experienced this, and I’m highly skeptical of this claim, it is overwhelmingly outweighed by how you haven’t literally been burning gasoline the entire life of the vehicle.
Probably? Tell me how the alternator which is a mini generator is “not quite” s efficient as the industrial generators whose job it is to literally do it 24/7.
Dude we’re already there. We already did close the gap. Literally everything you said was provably false and straight from what big oil wants you to think.
I own an EV personally. I have personally debunked absolutely everything you have said and everything else that has been hurled at me for why they are so horrible. It is by far the easiest vehicle I’ve ever owned, the most reliable, and I will never go back to an ice vehicle. My entire “fill up” equivalent price is $6 of electricity. Total. The total amount of driving to offset the mining/initial construction offsets was about 12k miles, which we are well past. The battery keeps a charge now just as well as the day it rolled off the lot.
So please, feel free to keep throwing more basic “they just won’t work” excuses because I’m literally driving proof every day that they’re wrong.
The idle waste is so stupid I really can’t… Normal gasoline has a shelf life of about 3-6 months depending on climate. After that you should pump it out of the tank. Even diesel should not be stored longer than a year.
Your estimations are very incorrect. Just refining a gallon of gas uses 5kwh of electricity, an electric car will go 25km with that…
https://www.theinvadingsea.com/2025/05/07/gasoline-production-energy-fossil-fuels-refineries-internal-combustion-engine-electric-vehicles/
This is probably over simplified, a refinery produces anything from plastic to jet fuel and lubricants from the same crude oil batch so while the number might be correct for gasolines part in the mix, removing it from the process would likely cause some efficiency loss in the processes, and those 6kwh would not be reclaimed in full.
With that said, we need to lower dependency on all oil products.