Here’s the thing about mass electrification of the global automotive fleet for environmental benefit: logistically, it won’t be perfect. Last week, a study from Polestar and Rivian said that even if the world’s supply of cars goes fully electric in the next few years and those cars are powered by fossil fuel-free energy, it still might not be enough to keep temperature increases in check. Plus, that’ll likely never happen anyway — not for decades. And as things stand right now, we can’t make every single car electric. In fact, doing that would introduce all sorts of associated problems and resource issues and would be massively wasteful, considering the world is filled with over a billion cars.
What actually would help more is if there was some way to make a significant portion of the current global car fleet burn less fuel most of the time – I say this not because I’ve crunched all the numbers, but more because I know that a rapid switch to 100% electrification is effectively impossible, and doing something is much better than doing nothing. It doesn’t need to be perfect, just better.
Plug-in hybrid combustion-electric vehicles are an ideal solution here because they can be completely electric for the short trips that form the bulk of how we use cars, but at the same time be able to use a combustion motor for longer trips and recharging, avoiding the need to build a staggering amount of EV chargers.
A startup called BlueDot Motorworks seems to get this idea and is developing an interesting and pleasingly basic-seeming universal unit to retrofit pretty much any car into a plug-in hybrid.
Will this actually happen? Who the hell knows, but let’s look at what they’ve got.
Oh, and it appears that their prototype unit has been fitted to what looks to be a 1997-2001 Jeep XJ Cherokee:
That video, which makes the case quite well for the need for retrofitted partial-EV solutions instead of trying to re-make the whole automotive landscape as pure EVs, shows their prototype driving around, a battery pack with what looks like fake taillights hanging off the trailer hitch of the XJ. I can’t tell if the system, which they call the Narwhal, is actually providing motive power or how that power would be moving the Jeep’s wheels, but you can at least get a general sense of what they’re going for.
Their website provides a couple of diagrams that provide a bit more insight:
Their planned line of cetacean-named add-on-hybrid kits actually has two entries: Narwhal, which we saw in the video in trailer hitch mount form, is for solid-axle vehicles and somehow connects to the rear differential to provide power from a co-axial motor/clutch system.
The other version is the Humpback, which can also mount the battery pack off the rear bumper, presumably via a similar trailer hitch-type mount, but provides power via what looks like a pair of external motor units that connect to the rear wheel’s mounting bolts/nuts.
This is an interesting if clunky way to accomplish this, and I suspect would be best used on FWD cars, of which there are plenty. It looks like the sort of thing an owner could install in their driveway in an hour or so, which is fantastic. Oh, also interesting: the SUV that they’re using in that image is a Mahindra XUV500, an unexpected but very cool choice for their diagram here. I bet they chose it in the hopes that it would be unrecognizable to most non-Indian readers, but they didn’t count on us, did they?
The graphic also notes they’re planning on an EV-only range of 30 miles, with “up to 200 hp” from the EV motor. My guess is that these are just target numbers, but as far as targets go, they make sense. A 30-mile range would, on average, cover most Americans’ daily commuting distance, and around 200 hp would be enough for that sort of commute, too, easily.
For me, the big appeal of Blue Dot’s solution is the simple straightforward, even almost crude design. These seem like plausible ways to cheaply add hybrid functionality to just about anything. They remind me of some goofball ideas I had back in 2012 for clamp-on motor units (the drawings show a gasoline version but I played with electric options, too) that would help push a broken car back home:
The notion of a completely separate, independently-contained power and energy storage unit means that it really can be applied to just about any car, even the old vintage heaps I gravitate to. Now, I’m not sure about the implications of a lithium iron phosphate battery effectively replacing your rear bumper, so that would likely take some figuring out and destructive crash testing, but I feel like there must be some solution there.
Of course, there are more issues involved in a system like this, too, which our resident suspension engineer Huibert Mees lays out for us:
My concern is hanging a potential bomb off the back bumper in thousands of cars. Also adding 300-400 lbs hanging off the rear end. Will really fuck with weight distribution, handling, and safety. Never mind the ass will be dragging and the front will be up in the air. You can sort of see that in the video of the Jeep. They claim to have something they call anti-sag but that doesn’t fix the weight distribution impact. They could easily make the car oversteer with that additional weight. Also, the body structure in cars is simply not built to take that sort of weight hanging back there unless it’s designed for 5000+ lbs towing.
Here’s another thing. Hybrids work by shutting the engine down when not needed. That puts a lot of extra strain on starter motors that are not designed for such a high duty cycle.
We are targeting a nominal weight for a 15 kWh pack of approximately 250 lbs. Using the wheelbase and weight of our XJ test vehicle, if a vehicle started with 50% of the weight on the rear axle, our system would increase that to 56%. While this will have some effect on at-the-limit handling, it will be a second-order effect as the increased lateral load is offset by increased traction. This is completely in line with many currently accepted practices, such as a hitch cargo carrier or the tongue weight of a trailer. There is also the option of mounting the pack inside the vehicle, which, especially for pickup trucks, will be preferred by many customers.
The anti-sag is an additional spring that is connected from the hitch to the axle by either an arm underneath (Narwhal) or by the external swing arms (Humpback). The preload is adjustable so normal ride height can be achieved.The normal use case would be to use the system until the battery is depleted and then turn on the engine. We do not anticipate frequent switching back and forth, and may actually include a timeout function that prohibits this.
Will these guys actually get a product to market? I have no idea. But, I hope that someone will get into the business of easily and cheaply adapting conventional combustion cars into some sort of plug-in hybrid. Plus, it could also be a great limp-home solution the next time one of my shitboxes has some stupid failure of some part I’ve neglected for years!
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Jason, your clamp-on motor idea may have been “goofball” for a car, but it was awesome for people using manual wheelchairs- https://www.spinlife.com/SmartDrive-by-Permobil-SmartDrive-MX2-Power-Assist-Power-Assists/spec.cfm?productID=111670
Not sure if article title is sarcasm…
The battery for my Prius, which gives you maybe a couple of miles of pure EV driving if you baby it, weighs over 100 pounds. I’m dubious they can get 30 miles from 250 lbs of battery that won’t be anywhere near as efficiently integrated as the Prius one is.
Still, I don’t hate the idea. It’s less wasteful to retrofit existing cars than to build completely new ones and scrap the old ones.
Your Prius using old NiMH cells, is so much less energy dense than new lithium cells, even LFP.
How does it know when to apply power? and when to regen? does it have an IMU to deal with going up and down hills? I have some concerns
BUT WAIT THERE’S MORE!
this is basically the bullshit equivalent of the gas atomizer snake oil you can get off QVC at 3am…
Fucking stupid…
That XJ has some serious cake…
Stock XJ steering isn’t bad enough, so enjoy it without the benefit of power steering!
Hi friends, Goldie Wilson III for Wilson Hybrid-Conversion Systems. You know, when my grandpa was mayor of Hill Valley, he had to worry about emissions problems. But now, you don’t have to worry about emissions! I’ll hybrid-convert your old ICE car into a electric hybrid. For only $39,999.95. So come on down and see me, Goldie Wilson III, at any one of our 29 convenient locations. Remember, keep ’em clean.
Came here for this. Thank you!
At least it keeps the post-collision battery fire at the back of the car instead of under your feet.
Reminds me of one of those “color TV converters” from the 1960s. Terrible idea, poorly executed,
https://www.hackster.io/news/transform-a-black-and-white-tv-into-color-using-revamped-tech-from-the-50s-0237a6f0ebc8
This is akin to the people that buy into the idea of mounting an alternator on the fender and driving it off the wheels and thinking they would have a perpetual motion machine. This is a simple idea with bad execution that would not work.
I suppose if they integrated the battery into the truck space and replaced the rear rums with regen brakes/hub motors, you could in effect make a passive hybrid. if you could perhaps charge the smallish battery and turn off the engine altogether an still safely drive the old thing that would be a plug in hybrid. But I cannot see this as being an inexpensive option that would likely only sort of OK for most people.
It’s like a hinkier version of betting all your chips on fleet electrification, when what is an order of magnitude (scientific eye-squint) more effective is reducing use and reliance on individual cars.
Jeebus, that is one bad idea!
I’d much rather have glass solar roads (how retro..) or one of those stupid luckily-nonexisting high centre of gravity 3D-rendered VW bus boats from Instagram!