Comment by roenxi
7 months ago
Not to mention that 20 years is enough time to develop a native industry of solar panel manufacturers. The issue with oil is it requires a constant flow of resources from specific locations in the world that are blessed by geography. Solar power has much less of that going on.
It's possible, but you may have noticed that out of the ≈200 countries in the world, over the last 20 years, about 180 of them have completely failed to develop a native industry of solar panel manufacturers, and about 100 of them have completely failed to develop a native industry of anything, continuing their agrarian and resource-extraction economies more or less as they have been for centuries, just with imported Chinese cellphones. People in those countries often blame the rich countries for keeping them down, for example by selling them goods at lower prices than their domestic production of those goods, and they're not completely wrong, but in many cases the dynamics preventing them from escaping that equilibrium are mostly internal.
Hypothetically, yes, such a blockaded country could develop a native industry of solar panel manufacturers in 20 years, and that industry would have an easier time traveling up the learning curve on the domestic market without having to match the prices of the Chinese hyperscalers. But in about 90% of cases they would fail to do so, for the same reasons the US still doesn't have any high-speed trains 60 years after the Shinkansen entered service and still doesn't have a moon base 56 years after Neil Armstrong.
> for the same reasons the US still doesn't have any high-speed trains 60 years after the Shinkansen entered service and still doesn't have a moon base 56 years after Neil Armstrong.
So.. lack of demand and ROI?
Transport is heavily dependent on infrastructure. If you have a train between city A and city B but you can get to and from the train station without a car, this is not going to work.
But markets are far from the only mover here. Regulation, lobbying, habits... Also I guess the US would feel ashamed for not building their trains themselves in the first place, they would probably have to buy them abroad... So "proudness" is probably a factor here too.
High speed trains in the part of Europe I know are very well utilized and even a bit too crowded to my taste (still way better than planes - allow working easily with table, walking, no absurd wait times waiting in line at the airports, arrive much nearer to my actual goals...).
Energy independence and HSR are indeed poor metaphors for each other.
In the U.S. one can travel coast-to-coast faster and cheaper in a car than they can by rail. Then, of course, there is air travel. That is to say, there are alternatives.
A country completely dependent on foreign solar panels could develop non-solar alternatives. Or they could just surrender. So of course they also have alternatives. But this is existential whereas HSR is not. So, yes, it's a pretty poor comparison.
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Can you build an industrial plant to build the panels only using solar power?
How and from where do you source the necessary primary materials for such an endeavor?
If you try to answer those questions you will see that you are bullshiting yourself.
I have tried, actually. Maybe you can share what you've learned when you, hypothetically, investigated the question yourself. I'll start.
You do need materials, but you can source the materials anywhere on Earth; it's just a question of how expensive it is to refine them. Every element occurs as an impurity in every rock at some level. When you can import them freely, some deposits are uneconomic.
For building a plant to refine silicon, things like platinum and iridium, which are very scarce in most rocks, are very helpful. But they aren't ingredients in the solar cells themselves. Solar cells themselves are made of silicon, aluminum, silver†, lead, and tin, with trace quantities of phosphorus (or arsenic) and boron. These are mounted to "ultra-white" glass, which is made of silicon again, oxygen, sodium, calcium, and trace amounts of manganese. The mounting is done typically with EVA, which is mostly a hydrocarbon with a little oxygen in it.
The total amount of these materials is surprisingly small. The silicon wafer (2.33g/cc) is about 100μm thick, and the glass (2.5g/cc) is typically 2.5mm thick (3.2mm is "ultra thick"). So a square meter of solar panels, rated at some 200W, contains 6.3kg of glass (mostly oxygen and silicon) and 0.23kg of crystalline silicon, plus much smaller amounts of other materials.
So raw materials aren't a constraining factor unless you're living on a barge or a space station or something. Knowhow, organization, discipline, cooperation, etc., are the constraining factors. Sadly, those are in short supply almost everywhere.
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† Silver is used for large conductive strips on the surface of the silicon; it can be replaced with copper at a significant loss of efficiency. There is already pressure to do this because the raw-materials cost of silver accounted for about 10% of the wholesale cost of current PV modules last time I checked, and about 10% of global silver production went into PV modules. Since then production has increased and PV prices have dropped.
Yes as I suspected you actually have no clue what you are talking about. You are listing stuff like a recipe as if you can just shop around for those things.
Silicon production is an energy intensive process; you need 11-13 kWh per kg of silicon produced. Technically it's a process using electrodes and thus raw electricity so you could source it from renewable. But that's in theory you need large amount of predictable power for a long time and on demand, which is not at all what the renewables have been so far.
Then if you look into aluminum production you will see that it requires carbon electrodes, that are made in ovens continuously heated to up to 1300°C for hours on end (about 20h per anode). They do not shut down those ovens since it takes multiple WEEKS to get to temperature, and they use natural gaz as the fuel. It's not clear if we could even make an alternative using purely raw electricity that would have enough power density. The aluminum production process itself requires megawatts levels of energy, usually you need a 500MW substation. Most plants are built next to a power plant, usually coal or nuclear. At the current 200W/m2 efficient level for solar panel, you would need about 2 500 km2 of solar panel to get that much power.
Glass production also requires a lot of dense energy. It typically uses gaz for heating but maybe they can figure out an industrial process to electrify it, currently not the case anyway. We are talking about megawatts level of energy again and a glass furnace cannot ever be shut down during its 15-20 years lifetime, so it's not like intermittent renewable are an option.
And I'm not talking about the various mining operations, necessary to get the raw stuff which is basically running almost exclusively on fossil fuel (but at least some of it can be transitioned to electric).
So now, I have to say 2 things: - firstly, my question was obviously rhetoric, the answer for anyone who has studied the subject is clearly no. But that requires an understanding that isn't surface level. - secondly you are clearly an arrogant asshole who thinks he knows shit when he clearly doesn't. But I'll let you live in your fantasy world where you can have industrial production with just electricity from solar panels.
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