I don't know. The science and engineering has quietly moved quite a bit over the last 40 years.
These [0] SMRs can, for example - there are several other approaches - can be assembled on a standard assembly line, shipped in a couple of C-Containers, and stood up on a concrete pad (well, not exactly, but close enough that I don't feel like complicating the point.
"In answer to a question I posed to Nuscale at the town hall we have learned that the plan to save costs by fabricating the modules at a remote factory and shipping them to the Idaho site has been abandoned. The artful response to my question said that Nuscale engaged with approximately 40 … pressure vessel fabricators worldwide and … determined that Nuscale will use existing factories … in lieu of building its own factory.
The major module subcomponents will be manufactured at multiple manufacturer locations and shipped to a single location for assembly prior to installing into the facility.” This signifies the failure of one of the major cost-saving features of the Nuscale project, which was to forestall this exact scenario."
The cost of that project has already escalated 70%, btw, with three towns dropping out and the output only 30% subscribed. I think there's a good chance it will never be built.
The best time to build nuclear would have been in the 1980s.
However, when we tried to build again back in 2008, it turned to failure. In areas with highly supportive populations that want the nuclear jobs in their community, with an NRC that changed processes to try to make it easier to get approval, we are still 12 years in, way behind schedule, and 2-3x over budget, without a solid feel for when we will star pushing electrons with the new reactors.
Last I heard, NuScale is hoping to hit a cost of $55/MWh. That's about the current cost of wind/solar and the storage to make it dispatchable. Meaning that by the time they finally ship, it will be a more expensive option for firm low-carbon energy than the current options we have.
So not only is NuScale aiming at a not-so-desirable target, by the time it can deliver its first 10GW, it's quite likely that the renewables will be curtailed for much of the year, meaning that we have extra generation capacity that goes unused, which is likely to spur a huge round of economic innovation for that energy.
I would hate to get stuck with the path dependence of nuclear. Renewables are so cheap that they open up a ton more doors for society.
These [0] SMRs can, for example - there are several other approaches - can be assembled on a standard assembly line, shipped in a couple of C-Containers, and stood up on a concrete pad (well, not exactly, but close enough that I don't feel like complicating the point.
[0]: https://www.nuscalepower.com/