The square km the US uses to grow corn for ethanol is about ~~ 1/3rd the total global area required for solar in this article. Ethanol that is a gigantic waste of resources.
They seem like big numbers until you compare it with the enormity of what we already do.
Yes, and the corn-based ethanol here is used for "feeding cars" that have combustion engines, i.e. it's already used exactly for energy production. The most recent Technology Connections video[1] quoted some numbers on this. All this land dedicated to disposable energy production could be dedicated to renewable energy production instead.
Such an unfathomable waste when you put it in the context of “feeding cars”. I really appreciated the way this channel broke down this viewpoint. Made me want to finally get some panels for my balcony.
Your main point still stands, but aren't both of them renewable? Corn is a renewable resource, thus ethanol derived from it is too. It's just seemingly a much less efficient renewable fuel for powering a car compared to solar.
You're right. Perhaps clean would better capture the distinction in favor of solar in this context? Both corn and solar convert insolation to usable power with a short time between capture and use. Solar, on the other hand, is net negative when it comes to emissions, while the corn harvest is just burnt with the CO2 escaping back to the atmosphere. (And potentially, the solar panels can just be recycled back to new solar panels when they reach the end of their lifetimes. They're mostly aluminum and glass after all.)
It means that it doesn't generate any mechanical work, it's wasted as heat not captured for any other productive purpose (since waste heat can be useful in some contexts).
Yep. Traditionalists hate renewables and facts. Here in Texas, there's been an absolute boom in solar post snowpocalypse. I'd gladly vote for shifting corn and soy subsidies to renewables, especially as grants for 1-300 MW solar/wind facilities for municipal co-operatives. And for solid state and sodium municipal and infrastructure energy backup and v2g.
And, I think we should heavily tax data centers federally because they're electricity, water, and land extractive and sound pollution vampires hostile to communities they invade (often to the chagrin of locals because of NDA backroom deals with corrupt politicians).. they're tantamount to giant petrochem facilities in "sacrifice zones". The rich people can cry about leaving, as did FDR's friends did, but it's always an empty threat.
Except transporting it over the grid usually doesn't make sense, and is neither easy nor simple nor cheap. So solar only really makes sense if you have a use for it nearby or even onsite. So for companies/factories/datacenters/... absolutely. To keep cities powered? Less so.
Solar farms produce 50 times more energy per acre than corn grown for ethanol.
A rabbit hole I started working down was how much ammonia would cost is the hydrogen was from electrolysis power by solar. It's sort of competitive.
Whack bit. 2200 calories a day is 2.5kwh. That's what a 400W solar panel puts out.
Which made me wonder about just synthesizing amino acids directly. Why make ammonia and spray it in crops that use sunlight (2% efficient) to turn it into protein.
You start digging an there are two dozen companies working the bioreactor angle. Hydrogen + N2 to feed nitrogen fixing bacteria.
I find this way more interesting than using AI to replace MBA's and code monkeys.
A long article, about rising prices driven by fossil fuel costs but also a lot of positivity as you read towards the end and a sudden sharp downturn that’s coming to Australias power prices. Australia’s wholesale power prices halved in q4 2025 due to massive solar and battery investment that on a per capita basis dwarfs china. Australia is now over 50% renewables. It’s set to accelerate too.
Still, what good is free energy to anyone if the retail price has only one trajectory.
If politics is a significant cost factor, no amount of technology is going to fix that.
Or, as Jimmy Carr put it: But you go, yeah, you can have net zero, as long as you don't give a fuck about poor people, right? If you don't give a fuck about poor people, of course we can do net zero. - https://youtu.be/H3FwqPkPSHE
> what good is free energy to anyone if the retail price has only one trajectory.
The underlying economics means someone is always paying for that, you can pay for more expensive fossil fuels in your taxes or on your electric bill but it’s going to happen either way.
Granted we have a legacy of fossil fuel, nuclear, and yes early renewable projects but if you have zero subsidies of any kind going forward we get to a 100% emissions free grid because today that’s the cheapest option,
Burning fossil fuels has had an over a century of technical development and global scale it isn’t getting dramatically better to catch up it just loses and renewables just keep getting more appealing over time.
I care less about poor people in poor countries in far away lands, and far away times, than I do my fellow citizens in my relatively wealthy country.
And my fellow citizens, especially the low income folk, are affected everyday by high energy costs. High energy costs result in higher costs of everything.
Whereas the effects of climate change, to the extent that they’re distinguishable from extreme weather events at all, are largely tolerated by even the poorest here in Australia.
High energy costs makes extreme weather events less tolerable.
It is good then that renewable energy is cheap. There are a million things countries can do to help poor people. Burning fossil fuels is very far down the list.
There is what? Approximately nowhere with high renewables penetration and cheap retail energy prices.
Australia has so much coal and gas we could have electricity plans similar to data plans: all you can reasonably consume for $80 a month, and it would still make approximately zero difference to global anthropogenic carbon emissions.
We’re plenty happy for everyone else to burn our LNG and coal. Our LNG is cheap the Japanese even resell it a profit.[1]
Instead, we have high renewables penetration and electricity prices that have increased at a rate three times higher than general inflation.
Do you accept that wholesale electricity prices in Australia can be wildly disconnected from residential retail prices?
Do you accept I am an Australian resident retail customer telling you I am not seeing any change in my $/kWh price, nor any offers from my any providers offering lower prices and higher solar input price than the plan I’m on now.
It doesn’t matter if wholesale prices are zero unless energy retailers are willing to compete to drive prices lower.
And they’re not. It’s a regulated market here in Australia.
Energy retailers in Australia are literally just a billing interface and a poor excuse for a call centre.
They’re not really adding value in the same way a farm & associated agribusiness > harvest > global storage and distribution > mill > commercial scale bakery > distribution > retail outlet does.
This reminds me of an amusing comment I read or heard the other day: eggs are now more expensive than chickens. Somethings not right there. And it’s mostly higher costs of energy, and extremely stupid egg production regulations.
No residential retail customer in my country qualifies for any high-usage discount, as far as I’m aware.
Only big industrial users do, and even the largest industrial users I’ve worked for, or adjacent to, in my state don’t come close to amount of electricity used by the aluminium smelter.
> The typical golf course covers about a square kilometer. We have 40,000 of them around the world being meticulously maintained. If the same could be said for solar farms we would be almost 10% of the way there.
To me, it's one of many ways in which markets fail to allocate resources to the most pressing problems.
> Individuals don’t demand solutions to diffuse problems
Markets solve diffuse problems really well, people signal how much their section of the problem is worth solving and the market judges whether the overall problem can be solved cost effectively. Getting food to everyone is a diffuse problem for example.
Tragedy of the commons is different. Markets don't solve how to solve owning things in common and the usual market recommendation is not to do that.
Also what is the capitol cost to stand up a golf course vs. a solar farm of equal size? I would imagine solar requires locking up a much larger investment.
I think you have misunderstood the term "tragedy of the commons", which is a phenomenon distinct from a market failure. Also, "markets allocate resources based on supply and demand" is, I believe an oversimplification one should not carry beyond Economics 101. If that were sufficient to explain the totality of market behavior, especially at large scale, then the remainder of the discipline of economics need not exist.
I don't think its lack of land that is preventing 10% of our energy coming from solar. Do you really believe that without golf courses there, the land would be used for solar instead?
There is no magic hand, only a Tragedy of the Commons and greedy individuals doing whatever. (Federally, there is at present time little-to-no prosecution of fraudsters or tax cheats. Economically, it's basically The Purge.)
Appropriate regulations and enforcement is what is missing but ⅔ of country is brainwashed by billionaires and Fox News that "gubberment bad" and "regulations are communism".
The biggest impediment to clean energy, which is actually cheaper than fossil fuels, is politics. We have political interference at the highest level to impede solar, storage, and wind.
In the US, residential solar is 5x-6x more expensive than in Australia per W, i.e. on identical system costs, not on what's generated. And they pay their labor better than we do in the US at the same time. It's because of a lot of regulatory and utility interference, and a laundry list of other things:
This is the headline from a non-partisan energy media outlet when it comes to wind: "
How Trump dismantled a promising energy industry — and what America lost---The demolition of the offshore wind sector in 2025 will reverberate for decades, resulting in lost jobs, higher utility bills, and less reliable power grids."
And when it comes to batteries, people that don't care about the effects of mining or oil extraction or toxicity of gasoline all of a sudden start to get all worked up about supposedly "toxic" lithium batteries, because they've consumed a ton of propaganda on the matter, and no facts. People also seem to think that we somehow burn lithium, instead of mine it once, and use a tiny amount (dozens of pounds) to power an entire car, which can then be recycled.
And I can't tell you how many times I've been told that we can't do solar because it takes "too much land" or "physics" by people that pretend to be good with numbers but have never figured out how to calculate the actual requirementns by solar...
This is a US-specific comment, but the rest of the world is not as foolish and is plowing full-steam ahead to a world of ever decreasing energy costs because they are not stopping the progress of better technology.
In Australia we have so much solar that wholesale electricity prices are often negative during the day. Despite that we still have high retail prices. Domestic battery installations are getting popular and will help.
More domestic batteries reduces the electricity demand at night, meaning power companies need to buy less natural gas and coal powered electricity from producers.
They lose some solar generation during the day that is now going into charging the batteries, but they have too much of that already.
Net result a lower proportion of (more expensive) fossil fuels in the overall mix, meaning total cost of power generation comes down, and retail prices come down.
Yes!, I totaly agree.
The total surface area of the world gets exposed to the sun and that fuels everything!, well except for the leftovers of other suns that exploded and produced the heavy elements, ok, all the elements, mrrrr, most of the elements, but the ones that weuse for nukes.
There is nothing but solar energy/fuel availible.The universe is an energy gradient, get you some!
As a domestic p.v. auto-builder: the real point is seasonal storage, until we will (if we will) be able to store energy across a whole year not just day-to-day, we simply can't run on p.v. while p.v. is excellent for self consumption if only we stopped trying to create large-scale solutions instead of solutions for domestic and small sheds self-consumption, which are the only technically viable options, given that large injection power plants are nothing but a problem for the grid...
Having cars integrated with the home (since they are 400V LFP on average, just like domestic storage and CSS is already there) is what works well to reduce summer demand peaks, not by passively injecting power but by helping the grid only when it actually needs it.
The only reason it isn't being done is because the political agenda is to strip the majority of private property, and for this reason, the "new deal" that works technically doesn't work in reality. They are trying to make it work for dense cities and large buildings, some not possible on scale for an unsustainable way of life as well. When the FAKE green supporters finally realize this, they will understand how many decades of evolution we are losing just to play into the hands of a few kleptocrats.
The future is solar. This has been clear for years. Solar simply has too many advantages. Plummetting prices, no moving parts, the only form of direct power generation, it can be done anywhere including otherwise unusable land and flexible installation, everything from a window sill to a giant solar farm in the desert.
And of course China is leading this transformation by miles. They're also discovering a whole bunch of secondary benefits too. For example, you need water to clean the solar panels. In desert areas that combination of shade and water has halted or even rolled back desertification. And in places they're feeding livestock on these plants to control their growth.
Orbital data centers make no sense but you know what does make sense? Orbital solar power collectors. I've seen estimates that because of the essentially 24 hour sunlight, no weather and no atmosphere an orbital solar panel can generate around ~7 times the power of a terrestial panel, even factoring in transmission loss from beaming power to the ground. We will reach a point where launch costs are sufficiently low that this will make economic sense.
Many of the resources consumed to make electricity at the scale we are talking replacing the production of those resources create the other resources used to for various other things
e.g. diesel(heating oil), jet fuel, gasoline, plastics, asphalt, etc
There is a balance of these.
This also doesn't take into account the extra electricity needed to replace the alternative heating methods in the home that utilize these other materials we're abandoning
They seem like big numbers until you compare it with the enormity of what we already do.
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