If all of mankind’s energy was supplied through solar panels would the effect be big enough to decrease the temperature (since light is converted in part to electricity)?
Yes, because if we build enough of them they’ll suck up all the heat from the sun’s rays. However, they would also suck up all the light. And because it would be so dark and cold, people would need their heating and lights on at all times, so the energy consumption actually would go up. My chiropractor calls it “The Solar Panel Paradox”.
@sighofannorance
@rayquetzalcoatl
Jokes aside, Solar Panels are something like ~15%% efficient, the rest of the light doesn’t get absorbed by the panels. Only ~48% of solar energy gets absorbed by the earth’s surface, ~23% gets absorbed by atmospheric particles, the rest just leaves. So the atmospheric temperatures wouldn’t change much.If you power Red-Yellow-Blue +ultraviolet LED grow lights for a “full spectrum” effect then you’re still using less power on the lights than the solar panels would absorb.
To reach GHG neutral emissions by 2035 would take adding AT LEAST something like 64 Terawatts of solar. So if a 1MW solar power plant takes up approximately 0.02 sq km (5 acres) then 1,280,000 sq km of solar would do it.
math note: (Somebody needs to check the math on this part because for some reason consumer panels are rated more like 183 watt / sq m which is 3.6 MW for the same size (note that 1 sq km is 1000000 sq m because of the rise in power (no pun intended)), just astronomically different than the 1 MW from the big plant…)
Good news, then! We can put the whole damn thing in 1/9th of the Saharan Desert! Or if we trusted that weird consumer number then we can put the whole thing in Montana! That leaves 99.749% of the earth’s surface open to get hit by the sun’s bullshit as nature intended alongside the 85% of the 0.251% that didn’t get absorbed by the panel.
Of course, becoming carbon neutral doesn’t offset the methane gasses emitted by the arctic as a result of current levels of warming, and producing more than 67-70 TW of electricity is pointless because we aren’t actually using that much power currently. One potential thing we could try is storing excess power underground such as with molten salt, or storing it on the moon or even as an additional satellite where the material would naturally cool over time.
Your Chiropractor sounds like they’re equally credentialed in thermodynamics as they are in medicine.
He cricks my neck real good so he must know a thing or two
Technically, if you built enough solar panels in space, they would completely block the sun and massively decrease global temperature
Yeah, on the earth surface 23% of the light gets absorbed by the atmosphere before it even hits the panel, and 85% of the remained doesn’t get absorbed by the panel at all.
perovskites offer tantalizing appearances of being able to take up more, and appear to be coming soon. few bits of good news but that’s one.
Most of the sunlight doesnt even hit Earth
Could you imagine how much more energy we could produce if we used all the empty space in space?
Now that right there is an idea within an idea, like a matryoshka brain.
Conservation of energy equation says otherwise.
The nuance here is that the user probably means cooling the earth’s atmosphere, not the earth as a whole enclosed system.
No. If a watt worth of sunlight hits the earth, it’s transformed into a watt of heat. If it hits a solar panel, it’s transformed into some heat and some electricity, which is then used to power something that then transformed it into heat. The only solar energy that doesn’t heat up the planet is the one that is reflected back into space, which, however, isn’t much for solar panels.
However, if you use a watt of sunlight to power your phone instead of a watt of energy you got from burning coal, this watt of energy instead stays below earth and therefore doesn’t heat up the planet. It also doesn’t release co2, which would otherwise reduce the atmosphere’s reflectivity, trapping even more sun heat on the planet.
So solar panels don’t reduce the temperature by not allowing sunlight to heat up the planet, they decrease the temperature by replacing other stuff that would otherwise heat up the planet.
Isnt the energy also stored in batteries until ready to be used?
Yeah, so what? Eventually, it’ll be heat.
Plants fixing carbon also converts energy to a form that isn’t heat, so I think we should count that along with reflection as a way that solar energy doesn’t become terrestrial heat.
when that electricity (photons absorbed by solar cells dumped into the grid) they’ll almost certainly be used in an application that generates heat, as well - data centers, phones, refrigerators, cars, they all generate heat as a byproduct of using that power.
I don’t think this is in any way a problem.
it’s transformed into some heat and some electricity, which is then used to power something that then transformed it into heat. The only solar energy that doesn’t heat up the planet is the one that is reflected back into space
if you use a watt of sunlight to power your phone instead of a watt of energy you got from burning coal, this watt of energy instead stays below earth and therefore doesn’t heat up the planet.
What?
wo:mankind FTFY
but serious answer: no. if humanity sources all its electricity through solar panels, these solar panels would cover <1% (IIRC) of earth’s surface area, so the effect would be negligible.
Not directly. That electricity is converted to heat when it’s used: All devices are space heaters, some just do other things as well. Even if not used, it would still be converted to heat by the panels. There’s no getting around the conservation of energy.
In theory, we could send that power out into space as microwaves or light, but in practice the effect would be negligible. The direct heat output of every human activity is nothing compared to the sun: All the electricity generated on earth is around 3 Terrawatts, while the sun hits us with 200 Pettawatts, 66 thousand times more.
On the other hand, burning fuels releases gasses like CO2, which can traps sunlight and creates thousands of times more heat than the actual amount of power generated. If we stopped burning fuel, it would stop the current massive increase in global temperature, which would then slowly be reversed by things like the carbonate-silicate cycle.
That electricity is converted to heat when it’s used
a missing point is that fossil fuels use 3-4 watts of heat to make 1 watt of electricity or mechanical movement. Electric heat pumps can sometimes make 3-4 watts of useful enough (home) heat from 1 watt of electricity.
but not all of it is converted back to heat. The energy used to do actual work is used for that. Some of it comes back out as heat
That just pushes the heat production down the chain: Take a light: it converts electricity into electromagnetic waves. Those waves the get converted into heat when they hit things.
The work also becomes heat in the end.
Also large numbers of solar panels like that have other effects, changes in wind patterns and such.
I mean I noticed just in small effects the parking lots that have them installed over the parking spaces seem less urban hellscapey to me, by like 5 to 10 degrees hamburger
Changes for the better in deserts: https://farmingdale-observer.com/2025/01/05/china-confirms-desert-solar-panels-permanently-alter-ecosystems-environmental-impact-revealed/
Cool. Thanks.
So lets paint the earth white to increase its albedo instead.
Thats been proposed lol. So many solutions instead of using “use less”.
The worst part is that convincing people to use less is difficult even when it’s something easy. Let’s say for example that your dryer brakes and you need to replace it and up until this point you’ve been using either a standard resistive electric dryer or a gas dryer. Heat pump dryers are now readily available, of good quality, and use literally 1/4 the power of a resistive electric to do the same job.
If we could convince everyone to just only buy heat pump dryers from this point forward that alone would create a ridiculous drop in energy usage for drying clothes as it’s a very energy intensive task. But people don’t like things that are different and so convincing them to try it is very hard. I had to basically purchase one for my grandparents to get them to be willing to try it and now they love it but initially they were very strongly against trying
There’s also a bunch of dumb but sometimes arguments. Take LED stop lights for example one of the biggest arguments against them is in places where it tends to snow every year they say oh well they aren’t worth it here because when it snows they get covered and if you put a heating wire on them to melt the snow then you’re not saving any power over the standard ones. But it’s like hello rub a couple brain cells together unless you are somewhere where it snows 365 days of the year you’re still saving the power whenever it’s not snowing which is a pretty drastic amount of power across an entire city or state.
I could sit here and give examples all day but suffice to say convincing people to use less even when It ultimately results in a better end result for them is exacerbatingly difficult
At least, eventually, everything will be replaced with better stuff. But we still use infrastructure that is 100+ years old, so it’s gonna take a long time.
Yes. If we built a giant circle of solar panels in space around the sun, it would cool the earth to the point it would be unliveable for humans.
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It would decrease temperatures because no energy emissions brings hope that natural carbon sinks can come close to reducing atmospheric CO2 levels. Hydrogen replacing heat in iron/steel and cement could be enough. But it needs to be quick.
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Solar panels provide shade which can cool the ground/water beneath them. At night, they release heat faster than ground, with less of it absorbed by ground relative to air and upwards to higher atmosphere.
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google ai does say that more efficient solar panels get less hot. 2-5C over “standard panels”, which I cannot source, but would assume its 2C per 5 %point extra efficiency.
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In theory yes, but in practice no. Before we used fossil fuels (say 1000 years ago) the earth was on a slight cooling trend because a little organic matter still gets converted to coal. I can’t find the amount, but IIRC it was something like enough for -0.1C every thousand years. That number is so small that even a tiny amount of fuel use would keep us even.
We are in the ending of an ice age.
In July 2018, the International Union of Geological Sciences split the Holocene Epoch into three distinct ages based on the climate, Greenlandian (11,700 years ago to 8,200 years ago), Northgrippian (8,200 years ago to 4,200 years ago) and Meghalayan (4,200 years ago to the present), as proposed by the International Commission on Stratigraphy.[6] The oldest age, the Greenlandian, was characterized by a warming following the preceding ice age. The Northgrippian Age is known for vast cooling due to a disruption in ocean circulations that was caused by the melting of glaciers. The most recent age of the Holocene is the present Meghalayan, which began with extreme drought that lasted around 200 years.[6]
Note: the ‘cooling effect’ didn’t make the earth colder, it was just a cold lake that mixed with warm ocean water
Note 2: I’m not a geologist. I can hardly read this Wikipedia page
Nope, it only helps to not increase it further.
Yes, if the panels were in outer orbit, and mostly powering things outside our planet.
A little simplified energy cannot be destroyed only change form, each time it changes it loses a little bit of energy to heat. Over time that means all energy will become heat.
So the only way to not heat up the earth with energy is to either make sure it doesn’t get to earth, or that we let it out.
Orbital solar cells could keep enough light from reaching earth to cool it, but releasing the energy dirtside would mostly cancel that out. So, we cover the earth orbit with panels and use them to fuel space things.
All of this requires more tech, a lot of resources and time to prepare though. And also a feasible way to store and use that energy in space. Maybe we shoot batteries at a moon base or orbital mining operation?
Or just shoot particles into the atmosphere to slightly shade the earth. Happens at every vulcanic eruption
Sulfur cools the planet but not by shading, it’s more similar to how CO2 acts but in reverse.
Assuming 25% efficiency, 25% of the sunlight will be converted into electricity. However, once that energy gets used later, most of it will be converted into heat, one way or another. The main way that it will decrease heat being released into the atmosphere is by replacing less efficient methods of energy generation.
For example, it you normally heat a house with a 90% efficient gas burner to generate 900W of heat on average, you are burning enough gas to generate 1000W of heat on average throughout the day. Lets also say the house gets 4000W of heat across its roof on average throughout the day. Thats 5000W of heat being released into the atmosphere total.
Lets now say you convert to solar panels and now get 25% of that energy from the sun converted to electricity, then into heat in the house. Electric heating is essentially 100% efficient, so you get 3000W of sunlight converted directly to heat in the panels, 1000W of electricity which is also turned into heat in the house = 3900W of heat + 100W of extra electricity (turned into heat elsewhere). The 1000W of gas gets eliminated completely.
It probably wont be anywhere near the numbers listed here and batteries will play a huge role in averaging out these numbers due to varying generation and use throughout the day. Additionally this doesnt account for things like cars and othergas based systems which wont / cant be replaced economically, other technologies like radiative cooling paint, and the fact that global temperatures will likely continue to rise due to the continued release of co2 and other gases. It might slightly slow things down though
Converting electricity generation to renewable alone isnt enough to reverse global warming, it would also require converting systens which use gas and other fossil fuels to electric
