Energy policy and global warming

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See also: Nuclear_power_reconsidered
World electric power consumption in 2021 - 3030 GW. This may soon double, including many coal plants in the developing world.
Electric power generation is only a third of our CO2 problem. A zero-carbon future should include industry and transportation.
Success requires abundant hydropower or nuclear, available 24/7.
Wind and solar to power the whole world will require unrealistic commitments of land and resources and a new storage technology far less expensive than today's batteries.
Wind and solar alone are not enough.
(CC) Image: ThorCon
Two ThorCons will generate 1 GW day or night. The can ship takes away spent fuel and used reactors for recycling.
Time is short, and build rate is critical to meet our goals.
File:Low-carbon-share-energy.png
Few countries are now on track.
Decarbonizing industry will require vast amounts of process heat, either directly from a nuclear reactor, or using hydrogen as an intermediary.

National energy policies have had a profound effect on success in reducing CO2 emissions. Some countries have made substantial progress in meeting the goals they have agreed to. Very few are moving fast enough to limit global warming to 2 degrees C. This article will examine the results of these national policies.

Further Reading

Electrifying Our World Robert Hargraves' excellent overview of energy, the growth human civilization, and possible solutions to the current climate crisis.
Our World in Data has a section on Energy and Environment with nice interactive graphics.
World Nuclear Information Library a well-organized authoritative collection of information on nuclear power.