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Nuclear: to maintain baseline power (as opposed to peak power) for emergency scenarios.
That’s an incredibly expensive emergency power supply. If you can’t operate a nuclear plant 24/7 it’s going to take a veeeeerry long time to pay off the massive capital investment.
And that’s the crux of the issue. These plants won’t be supplying baseload. By the time they get built we will have twice as much rooftop solar, and lots more utility wind and solar. There will be very little room for them to operate at a spot price that earns them money.
This is explicitly addressed in AEMO’s Integrated System Plan but the tl;dr is that in a national grid with geographically diverse renewable generation and a little more transmission, the chances of there being a weather-related shortfall are exceedingly rare.
For these cases we have pumped hydro being built, and we can still fall back to gas peaking plants for whatever unmet demand is left.
Yes, gas is not carbon free, and it will be expensive to run in these cases, but it won’t run often, it is already built and will allow us to operate at well above 80% renewables until we can built enough long term storage to make it redundant. This meets our international abatement obligations, and more importantly reduces the area under the emissions curve, which is all that really matters tbh.