Sweden is testing a semi-truck trailer covered in 100 square meters of solar panels::A Swedish manufacturer wants to harness green energy from a cargo trailer’s free real estate.
Putting solar on moving vehicles makes no sense except for very specific use cases.
Install those same panels on the ground and you can point them at a good angle for sunlight capture 24/7, don’t have to literally carry the weight of them everywhere, don’t have to worry about them getting dirty all the time from moving around winter roads, and are much easier to repair.
I’m not a solarogist, but how do you capture sunlight 24/7?
bet on moonshine
Oops 🙊 you know what I mean though.
Solar panels on one side, lunar panels on the other! Boom! Free electricity 24/7!
It’s Sweden, it works weird
It’d be good for temporary power after a natural disaster or for an event.
A tractor trailer FULL of solar panels would be great!
Pretty sure these solar panels aren’t just your regular residential or commercial building panels. They are specially made for this purpose.
Those don’t exist.
Amount of power that can be generated is dictated by the angle to the Sun. You need to be perpendicular. Panels on the ground can slowly move and rotate to kind of track the sun. Or you put a bunch of mirrors and make a tower made of solar panels.
Solar panels on roof tend to be fixed infrastructure. You get what you get.
So if they apply panels to a vehicle you have two options. Flat or angled.
If they’re flat and the only time you’re ever going to get the maximum amount of power from them is during noon when the sun is directly above your vehicle. If angled that means the height of the vehicle has changed and they direction that they work is very dictated. If they track the Sun then they’re probably going to waste more power than they can ever produce by constantly moving because you’re on a vehicle that’s constantly moving.
Those don’t exist.
No one said it does.
Generally speaking, solar panels aren’t optimized for near-constant traveling. As such, it’s “fairly involved from a technical point of view,” said Falkgrim. Despite only recently starting prototype testing on Sweden’s public roads, he explained the project is “about seeing if the solution makes sense, and so far we believe it does.” Although such a design isn’t expected to become widespread on roadways for a few years, Scania’s initial testing shows the tech is not only feasible, but promising.
While they could do things to mitigate the angle of incidence, ultimately that same photovoltaic material will fare better angled consistently toward where the sun might be. If you’ve run out of room everywhere else, sure, time to look at trailers. But so long as we have spare other places, those are better places.
The trailer might be going through shaded areas, there’s only so much optics can do to correct for angle of incidence, and the added weight means we are using energy to move them around when they’d be better off stationary anyway.
Even residential solar is a dubious proposition, since you have to work around roof lines that are rarely optimal for solar. In that case it can make some sense for owning your own generation, particularly with battery, to go “off grid”, but I have a hard time imagining similar for the trailer.
Depends on how much power you can efficiently harness I’d imagine
A 220 watt solar panel will somewhat efficiently charge a 12v battery on a clear day
An electric car uses about an 800v battery(s) which is about 67 normal batteries. Let’s go ahead and say a small truck would take twice that and hey to make it a round number let’s call it 2000v. That means you would need a solar panel that can produce 440,000 watts or .44 Megawatts.
Some Google fu shows that to harness an entire megawatt(1 million watts) you’d need about 5000 conventional solar panels which on the ground would take up about 5-10 acres. Pretty impractical to put half that on the back of a truck I’d say.
You’d have to have some extremely efficient solar panels to make it practical methinks. Might work on smaller cars though. Anyone feel free to jump in here and get me with an epic slam though
Thing is, we’re no where close to running out of room. There’s lots of land to use. I cannot speak for every country, but the US for sure has vast areas of nothing. A truck stop with a solar array nearby storing it for when the trucks stop buy to me makes way more sense to me at least.
Yeah, it certainly seems like a challenge. I’ll be interested in seeing where they go with it.
Those don’t exist.
No one said it does.
Pretty sure these solar panels aren’t just your regular residential or commercial building panels. They are specially made for this purpose.
This you?
Ah yes. The old “this isn’t an optimal solution that will solve all problems so no one should be working on it”-argument. You must be fun at parties.
Listen this isn’t mixing drinks or some opinion piece were there’s no one clear way. Things cost money. Every company that would seek to implement this is going to be looking at an ROI. Suboptimal numbers is going to make the project look bad and waste a bunch of money. Sorry if I’m ‘not fun’ because I’d rather have functional solar power than the appearance of solar power.
Rough estimate of 72 cell panels at 2m² and 500W per panel puts this at a peak performance of 25kw. More than twice the average home installation.
Yes, but also much less efficient due to the angles. These panels are either completely flat or completely vertical. Ideal conditions have them facing south at an angle.
I swear it seems like some of these harebrained schemes must be being created by people who want solar to fail so that they can point at the failure when the dumb idea doesn’t work.
Imagine testing solar panels in Sweden
Would work for roughly 4 months every year lol
Enjoy those super-long summer days and truck it South for winter. Yes, still silly but I’m just trying to make this work.
It’s free real estate.
I could see this working for either running cooling and such for refrigerated cargo or if they stick a battery in the trailer. In the latter case it would be possible to just charge it for free while the trailer sits in a lot somewhere. Then when the truck comes they plug in the battery and use the stored up power.
I’m guessing it won’t be driving to Lapland this winter.
Solar is not that efficient. They will gain a extra mile. Whoop Dee doo.
Solar is getting more efficient by the week. It’ll always be a marginal gain but it’s still a gain. An applications engineer somewhere is likely doing the cost benefit analysis to determine the cost per panel to km of drivable energy produced to determine the x number of year return on the panels. If you assume the lifespan of a commercial long haul truck is about 20 years it could add up to a decent amount of energy savings and the panels would still retain some salvage value after that lifespan.
I love your optimism, bit that’s not how any of this works.
It will never be more efficient to put panels on the vehicle. Any vehicle ever. Dirt, trees, buildings, bridges, tunnels, etc. All block light. And panels available today, are around 23% efficiency. And they only get worse over time, estimated a 90% lots at 20 years.
Could they make better panels someday, sure. Would it still make more sense to put those panels on top of buildings or an open areas where they can get lots of sun. Yes.
The issue is that while it may be a trivial gain, that same photovoltaic material would generate more energy in a fixed installation. Also, as an installation on a truck, the weight of the system contributes to the energy needed to move the truck, somewhat negating the benefit.
So sure, have your electric truck. The trickle charging of any onboard solar system wouldn’t even be noticeable though, and it’s better to have the panels on grid helping drive the charging infrastructure. I saw someone guesstimate a theoretical peak of 25kw. My car charges at home at half of that, and even for my comparatively tiny car, that takes a long time to restore range, compared to it driving down the road. The truck might be able to get an extra 5 miles of range per hour of peak sunlight with 25kw system under realistic conditions, and that same material might be able to extract 40-50% more energy over time in a fixed installation.
I don’t know why you’re behind downvoted. Solar still isn’t great for vehicles. This probably about 7-10 days of travel a year at best.
Seems like there would be better green tech to spend this money on. This seems like a lot of money for not much impact.
Might be enough to run the compressor if it’s a reefer.
Not nearly.
874sq-ft is needed for 15kw a trailer is 450. A reefer is around 15kw and needs to be able to run all day and night some times. Just wouldn’t work at all. Especially if you had to carry around the batteries for night. It would just be way too heavy.
They can gain 50,000k extra a year, but its also a plug on hybrid so don’t know how much is panel vs hybrid.