Plug in hybrids make a lot of sense during this transitional period of rapidly advancing battery technology and incomplete deployment of charging infrastructure.
Building a small, relatively cheap factory for manufacturing a small number of super expensive, pavement princess trucks is less risky than making a large investment in a megafactory capable of producing a meaningful number of affordable cars. That big car factory would need the market to demand its products for a long time for the investment to pay off. For example, if there's a big leap in battery tech in the near future, the car manufacturer would take a loss - either they continue to offer outdated EVs and sell fewer than projected (only utilizing a fraction of the factory's maximum output, while still paying taxes and maintenance on a larger facility), or they throw away their expensive, brand new factory tools and build expensive new ones for manufacturing cars with the new batteries.
Meanwhile, charging an EV at home still isn't possible for a lot of people, and quick charger stations aren't available yet in a lot of areas. However, a plug in hybrid can be adequately charged overnight by a standard home electrical outlet, letting it act like an EV for quick trips around town. Meanwhile, longer trips into not-yet-electrified areas are still possible thanks to the ICE, and the range can be quickly topped up at a gas station. More plug in hybrids on the roads also generates demand for building charging infrastructure - if someone just has $5 to spend on gas, they could get more miles by spending it on electricity at a quick charger.
Honestly plug in hybrids are the worst of both worlds.
There was a study recently from Europe that found the vast majority of people with plug in hybrids hardly every plugged them in, and drove them like normal cars. That defeats the entire point of a plug in hybrid, and now you are carrying a heavy battery everywhere that you are not fully using. Which makes the car less efficient than a normal hybrid!
I had an alcoholic neighbor with learning disabilities who had a PHEV minivan purchased for them, and they only kept the battery charged for the first few months of ownership. After that, they seemed to lose interest in plugging it in when they got home.
On the other hand, a friend of the family owns a PHEV sedan they keep charged religiously, and they need to buy fuel stabilizer because they almost never use any gas.
The second one sounds an awful lot like they would be better off with a pure ev rather than carrying around a complete ice setip plus tank of fuel.
It's why plug ins rarely work for normal use, you're either carrying around a heavy battery pack and motor you aren't using or the ice and fuel you aren't using.
Harry Medcalf loved his Range Rover PHEV because they only ever used it for short journeys, almost of all of which were on electric. It's such a face palm moment making an already massively heavy car even heavier when a small EV with a small battery like a Leaf or even a small ICE would be far cheaper to buy and run, while fitting all of their actual requirements.
I get why people like them, as they let you dip your toe into evs but they just don't offer the benefits that a straight ice or straight ev would.
I imagine that when the concept was first dreamt up they were thinking that cities would charge you if you entered using ICE, so the battery is for then and you get to the city using ICE savingyour battery. But that's not happened.
That's an edge case if it's any more regular than could be addressed by hiring a car for those trips. And if it's that regular, then a plain ICE would be a far far better fit as you aren't trying to drag around a useless heavy battery and motor on them and you haven't paid over the odds to do so.
It's like the dumbasses that purchase a pickup truck for the flat bed, then use it at must a handful of times. For them, hiring a van or a trailer would be the sensible choice. If they ran a landscaping business or something, then yeah, a pickup is the way to go.
Buy the vehicle for whatever the majority of driving you need, not some random likely rare edge case, that's dumb.
How long is a piece of string? So many variables with that you'd have to do your own numbers for your own situation and if you really can't charge a long range ev for your trip.
However, most people who say they do big trips (more than 400 round trip) do so a handful of times a year where there is zero ability to recharge the car. That's where I'd be looking at a hire car, and it's going to be cheaper to do so.
A long-range EV works for me. About a third of my annual miles are towing on long trips (1000 mile round trips) with it, and it's fine with planning.
Completely get why some people don't want to do that, and for that, a suitable diesel is far better for them as its 10ks cheaper to buy in the first place.
PHEV makes fuck all sense for that sort of trip as it runs out of battery 30 miles or so into a 1000 mile trip. You paid for to buy it than a diesel, you get worse economy than a like to like diesel, just not good.
OK, so we've established a person can do the math and come up with some value of long trips where its not economical to rent.
Given that a person needs to make that many long trips, how many short trips would they also need to make for the gas savings from a PHEV in EV mode during short trips to exceed the gas loss from doing long trips in a vehicle that gets somewhat lower MPG on long trips compared to a pure hybrid?
How much value might a person reasonably assign to the flexibility to take a weekend road trip without having to plan ahead and make reservations with a rental company?
That's such a strawman as it js such an edge case.
You have to include the additional purchasing and running costs of a more modern PHEV against an older diesel or an older small EV, this will be $10ks.
Booking ahead for hire cars for local pickup is rarely needed unless you have unusual requirements or live in a tourism black spot.
PHEV only made sense during the short period of time when EVs doing 300 miles or more looked to be very expensive but battery costs came down and now there are a significant list of evs than can beat 300 and a not insignificant list that can hit 400. They have become irrelevant.
Yeah, hmm, at some point you have to stop, thats where the momentum or at least some of it is returned to the battety. The return from regen is less than the energy spent to accelerate and overcome friction, in the first place, so you get significant losses of around 20% or more, so not really...
Believe me when I say that there are smart people working out the details to minimize losses. Like. Arguing here doesn't make the cars more or less efficient. It's a thing you can buy already and it's appeal is that it saves fuel. So like unless it were to not actually save fuel, I would say that someone actually did their homework and figured out how to deal with any of theoretical problems such as this one.
What you are describing, for it to be of actual benefit, is at its minimum a perpetual motion device, as that's what a zero loss system would be. Only people working on that also sell snake oil.
Anything less than 100% is a loss, which is going to be larger the heavier the car is due to friction (aero, drive train, and rolling) and extra energy to accelerate, that's basic physics.
Very large batteries, 100kwh or over, solve what should be a medium term problem, they are an expensive dead end as they are often around half the cost of the car's production cost and add . What I really don't like is stupidly large bricks of cars that struggle to even do 3 miles per kwh and then use a massive battery to get around their comically small range, which further lowers their efficency.
You can't fix stupid. You can argue plugin hybrids are bad on the pragmatic argument that people don't charge them and that's fair, but to say they are the worst is just wrong. The have the potential to be the best.
Well let me clarify a bit why I think they are the worst.
They have the full complexity an an ICE car, with the added difficulties that arise in a full EV
You need to build and design a car that has all of the downsides of ICE cars. Complicated engine, emissions management, fuel, air intakes.
With a lot of the downsides of an ev. Large heavy, expensive batteries.
Meanwhile you get limited upsides. Evs get lower maintenance and transport costs and ICE cars get range.
Plug in hybrids will have harder maintenance than either, while not getting the fully reduced transport costs as it's not as efficient as a full ev.
Here's where traditional hybrids win out, their battery can be really small, correspondingly cheap and more efficient.
Lugging all that extra weight around decreases the efficiency of the vehicle, where for full ev that matters a lot.
When running in full gas mode your lugging around a heavy battery for nothing, and in a full ev mode your lugging around a heavy engine for nothing.
The High-medium range of full gas would be better served by a traditional hybrid, and the low-medium range would be better served for full evs.
I'm sure there is a narrow window for plug in hybrids, but again that is going to be rare and shrinking as evs get better.
While you can't fix stupid, we do have to think about how a product actually gets used vs it's design.
If nobody is plugging their plug in hybrid, then maybe the manufacturer should remind them, even if its only outlet level power.
To me it is also a symbol of overconsumption. Buying a vehicle that will cover 100% of your use cases vs buying for 99% and renting a more suitable option for that 1%.
I do think this argument for me would change if manufacturers took a different approach. If they took something like a traditional hybrid, like a Ford fusion, and stuck a modern battery in and added a simple plug would be great. Then increase the efficiency a bit and maybe someone could get 10 miles of battery from a regular outlet.
I get a lot of engineers at my job who don't understand the concept but they react to it in extreme ways. Like when we talk about plasma, there would always be someone bringing up how you can't use certain materials near plasma or near heat or in vacuum. Yet some how the machines we make work and you even have on your hands a little TV screen powered by all sort of circuitry that shouldn't exist because x or y factor that some guy always thought wouldn't work because they were not in the team that actually made the thing work. But do keep telling us how plug-in hybrids don't work. I only spent a decade in that industry actually developing motors, gear drives battery packs etc, and just so that some guy over here who maybe had one or drove one last week and has some options now controls the conversation. To me. Seeing is believing. I drive a little hybrid, I watch the gauge and it tells me, hey you got 57 mpg! Yey! But what I believe is that I do maybe 14 trips a year to go get gas and it's way cheaper than when we fill up the van. As a user of my Toyota hybrid, that's the bottom line regardless of my engineering degree and years of experience in the matter.
Not necessarily. In our case, we have a hybrid SUV that we’ve used on several road trips, however most of the driving is within the 40 mile range. At the time, there was no plug in hybrid option, but if there was, it would have been perfect. Battery for most daily driving, but no range anxiety for any road trips.