this post was submitted on 26 Aug 2024
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Oh wow, thanks for the detailed writeup. It's a little above my pay grade (condensers used as localized generators? Wow, what an idea. They must be huge).
Guess it's time to find an Intro to Powergrids from The Teaching Company
I'll give you a short introduction to the power grid (btw. it's called "stromnetz" (electricity network) in german). The power grid has many "levels", where each level represents a network of cables that transport current at a given, specific voltage. For example, you might have one 220kV level, and then a 5kV level, and a 230V end-consumer level.
Between these levels, there have to be translations. These are "transformers" today, transforming high-level AC into lower-level AC or the other way around. For AC networks, they are basically a ring of iron and a few coils. However, for DC networks, other transformers exists, such as Buck/Boost converter.
My question basically is: is there anyone who can give me experimental data on how well DC networks would work in practice? Personal experience is enough, it doesn't have to be super-detailed reports.
I'm not sure there are any power grids past the tens-of-megawatt range that aren't just a 2/3/4 terminal HVDC link.
Railway DC supplies usually just have fat rectifiers and transformers from the AC mains to supply fault current/clearing and stability.
Ships are where I would expect to start seeing them arrive, or aircraft.
Almost all land-based standalone DC networks (again, not few-terminal HVDC links) are heavily battery backed and run at battery voltage - that's not practical once you leave one property.
I'm sure there are some pretty detailed reports and simulations, though. A reduction in cost of multi-kV converters and DC circuit breakers is essential.