I don't have a preference either way: not my decision to make, or something that I'm in a position to lobby for or against in any meaningful manner.
I'm just a casual observer here for friendly and hopefully thoughtful conversations on topics of mutual interest.
I got the idea that this boat might be quieter than (certain) "more traditional SSNs" from a few different places, including this very thread:
There is no reason to think that way
So in your opinion and assessment, would there be more of an use case for VLS integration if this boat is oriented more towards operating in and around the 2IC rather than the 1IC?
no, because DF-26, J-36 and H-6K have it covered pretty well.
Basically, the limits of these platform is about 3000 km away. The VLS targets you'd want to think about are Honolulu and San Diego.
The platform in question appears akin to AIP enabled diesel-electric SSKs, in the vein of the 039C, except equipped with a nuclear powerplant of some sort and without Stirling engines from the looks of things.
Though given that we still don't know exactly what powerplants will be incorporated, I'm happy to defer to more fitting terminology, especially once more fidelity is established on the internals of this boat.
However, said nuclear powerplant is apparently, or based on what we might know or believe thus far, unable to provide this boat the speed and endurance typically associated with a "more traditional" SSN.
This inevitably leads us to the question: is the nuclear powerplant in this instance the primary source of power or an auxillary source of power or better characterized as something else altogether?
It is the primary provider of energy. There is no point having a nuclear reactor in there if it can't provide a lift in performance.
The reduction gear, Stirling engine and larger electric motor/drive are all noise generators to different degree. We use 10 knots as the max cruising speed here, because speed to power is 3rd degree power relationship. So if, 25MWe might be required for 30 knots cruises for 4000t sub, then close to 1MWe is needed for 10 knots. There is a limit to how large Stirling engine can get. Back in 2021, they built what was then the largest Stirling engine at 320 kW
This was what was said at the time. Clearly indicating MW Stirling engine is designed to be paired with nuclear energy and a sodium cooled fast reactor, which they have also spent a long time working on
The Stirling engine is a closed-cycle reciprocating power machine that takes heat supply from external sources, the press release explained, noting that the engine can be combined with any kind of heat source, either conventional or nuclear energy, in many configurations.
A megawatt-class Stirling engine is tightly structured, has a simple system and can be started quickly and configured in modules. These will be significant advantages of the Stirling engine, the CSSC announced.
When used together with a sodium-cooled fast reactor, the Stirling engine can eliminate the risk of sodium-water reaction making it also a very safe choice.
In 2023, they actually tested Stirling thermoelectric converter in orbit
It was said at the time
When paired with a
as a
, Sterling engines could allow for long-duration stays on the moon and Mars, augmenting solar power, batteries, fuel cells, and other conventional power source
so the key is nuclear power is constant and they've managed to developing Stirling engine large enough to somehow power at least part of the space module.
Why we want to use Stirling
Stirling thermoelectric converter reduces all that stuff on the right side. Cuts a lot of noise making part.
