- Joined
- Oct 24, 2020
- Messages
- 469 (0.31/day)
- Location
- Belgium
System Name | MSi Coffee Lake |
---|---|
Processor | i7-8700k |
Motherboard | MSI Z370 GAMING PRO CARBON AC |
Cooling | NZXT something AIO loop |
Memory | 16GB Kingston HyperX 2133 C14 Fury Black |
Video Card(s) | TITAN Xp Jedi Order Edition |
Storage | Samsung 960 Evo NVMe |
Display(s) | Medion 23' |
Case | Cooler Master Stryker |
Audio Device(s) | onboard |
Power Supply | BeQuiet 600W |
Mouse | Logitech Trackman T-BB18 |
Keyboard | Generic hp |
Software | Windows 10 |
Yes, but even that is not new matter gone radioactive, it's the leftovers from the initial radioactive bars.
Plus, this is about SMRs, which use very little fissionable material. Ok, they don't output that much power either...
Whatever we get from renewables, is unsteady. If you have to have a backup for renewable, SMRs are just about the best candidate.
SMR's do not use "very little fissionable material".
SMR's are about a tenth to a third the size of a common large scale commercial nuclear reactor.
The International Atomic Energy Agency (IAEA) defines 'small' as under 300 MWe, and up to about 700 MWe as 'medium'
A subcategory of very small reactors – vSMRs – is proposed for units under about 15 MWe, especially for remote communities.
The idea of having a "vSMR in every single town" scares the hell out of me.
Last edited: