Now this is interesting. The really good power sources really cant be achieved unless you already have a bunch of power. Nuclear, for example, absolutely requires purification industry, which both directly requires energy and indirectly requires a large industrial base. About the simplest you can get is concentrating solar, and getting useful quantities of power out of those still requires industrial-scale fabrication.
Fossil fuels, in contrast, need almost literally nothing. You can build a decent coal-fired steam engine on an anvil and evolutions of that same coal-fired steam engine stay relevant well into the information age. Fossil fuels are a spectacular boostrap technology.
But! Fossil fuels are only good at bootstrapping. We're on a forum for startups and venture capitalists - we know better than anybody about the prototype-MVP-refactor cycle. Once you've launched your MVP, you need to turn around and deal with all the technical debt you've built up before it overwhelms you. There are a ton of products out there that share zero common code with their MVP. Bootstrapping technologies tend to be awful options for long-term use and you want to get away from them as soon as you've finished bootstrapping.
So here's what I say: build a prototype. Fossil fuels. MVP: build fast, lean on the cheap easy fossil fuels. And, finally, stabilize on your Once you've got enough basic infrastructure, use it to figure out a better long-term option and switch as fast as you can. Even if it's not as good immediately, it'll improve with time, and in the worst case (alien invasion?) you can bring the coal plants out of mothballs for a few years while you industrialize again. I won't say that it's easy, but I can easily imagine a less-intellectually-crippled species pulling it off.
Fossil fuels are seed capital, yes. Modern civilisation has quite the burn rate.
I like to consider the technological stack height for various energy systems. For nuclear, as you note, it's quite high. One thing this creates is systemic risk of sheer system failure and inability to reboot. One of the consequences of the Fukushima disaster and following shutdown of much of Japan's nuclear power sector was that the entire nation faced a shortfall of electrical capacity. Not helped, incidentally, by its dual incompatible power grids, one operating at 60hz, the other at 50hz, limiting inter-tie capabilities.
While fossil fuels have a fairly low tech stack requirement, it's not zero. For a long time, plant-based sources of equivalents: olive oil and fuelwood, principally, were preferable. They could be obtained locally, processed readily, and renewed themselves.
For local use, all you need is a coal face or oil seep. Gas, without industrial means to capture, transport, and contain it is quite problematic, though the Chinese actually did just this, nearly 2,000 years ago, using bamboo pipes and hide bladders[1]. I hate to ask what the fire incidence was....
Oil didn't take off until an existing coal-based industry provided iron, and later, steel, for drilling, storage, pipes, railroads, and ships. This industry developed incrementally from roughly 1860 to 1900, though even _quite_ early in the process, oil equipment took on much of its modern appearance.
The other thing oil wanted for was a practical application: the internal combustion engine, which required: roads, tires, rubber, steel, electricity....
Another challenge is that fossil fuels hugely distort prices. We price fossil fuels at extraction effort, but the long-term cost is the replacement cost. Since replacing fossil fuels with more fossil fuels isn't viable (we don't have 100-500 million years to wait), that generally means existing biomass. Humans appropriate roughly 40% of that now, and it produces at net efficiencies of 1-3% of incident sunlight converted to fuel (algae might boost that to 10%), which has highly specific land, nutrient, (generally fresh) water, and climate requirements.
Nuclear seems to offer a possible out, but for any fission-based process is also* a nonrenewable option. Estimates of fuel abundance range from 80 years to a few thousand, at present rates of consumption. Relying on uranium for all present human energy needs would exhaust reserves in 6 years. Breeders offer a 100x improvement in fuel utilisation, but that pushes us from 6 years to 600 (without growth), or 80 to 8,000 at present rates -- a goodly interval, but only slightly longer than our current history. Suggestions of recovery of uranium from seawater might extend lifetimes further, but with another expansion of the the tech stack requirement. And there's the near-term immediacy of the problem to boot.
I'm leaning to the side that says that reducing our overall throughput (smaller population, decrreased per-capita affluence, possibly both) is going to have to be part of the solution. That's going to be unpopular. Possibly thermodynamically improbable without massive systemic changes, possibly catastrophic.
Fossil fuels, in contrast, need almost literally nothing. You can build a decent coal-fired steam engine on an anvil and evolutions of that same coal-fired steam engine stay relevant well into the information age. Fossil fuels are a spectacular boostrap technology.
But! Fossil fuels are only good at bootstrapping. We're on a forum for startups and venture capitalists - we know better than anybody about the prototype-MVP-refactor cycle. Once you've launched your MVP, you need to turn around and deal with all the technical debt you've built up before it overwhelms you. There are a ton of products out there that share zero common code with their MVP. Bootstrapping technologies tend to be awful options for long-term use and you want to get away from them as soon as you've finished bootstrapping.
So here's what I say: build a prototype. Fossil fuels. MVP: build fast, lean on the cheap easy fossil fuels. And, finally, stabilize on your Once you've got enough basic infrastructure, use it to figure out a better long-term option and switch as fast as you can. Even if it's not as good immediately, it'll improve with time, and in the worst case (alien invasion?) you can bring the coal plants out of mothballs for a few years while you industrialize again. I won't say that it's easy, but I can easily imagine a less-intellectually-crippled species pulling it off.