First New Nuclear Plant in US in 30 years

Hugh Pickens writes "With backing from the White House and congressional leaders, and subsidies like the $500 million in risk insurance from the Department of Energy, the nuclear industry is experiencing a revival in the US. Scientific American reports that this week NRG Energy filed an application for the first new nuclear power plant in the US in thirty years to build two advanced boiling water reactors (ABWR) at its South Texas nuclear power plant site doubling the 2700 megawatts presently generated at the facility. The ABWR, based on technology already operating in Japan, works by using the heat generated by the controlled splitting of uranium atoms in fuel rods to directly boil water into steam to drive turbines producing electricity. Improvements over previous designs include removing water circulation pipes that could rupture and accidentally drain water from the reactor, exposing the fuel rods to a potential meltdown, and fewer pumps to move the water through the system. NRG projects it will spend $6 billion constructing the two new reactors and hopes to have the first unit online by 2014."

US sources of energy

[Diakoneo]

For reference. I found these here.

Coal-fired plants - 49.0 percent
Nuclear plants - 19.8 percent
Natural gas-fired plants - 19.2 percent
Petroleum-fired plants - 1.8 percent
Conventional hydroelectric power - 7.1 percent
Solar, wind, etc - 3.1 percent

Re:Sounds sensible

[AWeishaupt]

Not true. Boiling Water Reactors - as well as more modern designs such as the PBMR/HTGR - circulate the coolant from the reactor straight through the turbine. In the case of the BWR, this means that there is considerable radioactivity within the turbine system during operation, but it decays very fast when the reactor is shut down - Nitrogen-16, one of the primary activation products within the water, has a half-life of seven seconds.

Re:Boom

[init100]

Can this type of powerplant actually blow up and cause a nuclear explosion?

No nuclear power plant can blow up in a nuclear explosion. First, the enrichment level of nuclear fuel for power plants is far too low to be able to cause an explosion, and second, even those reactors that use highöy enriched fuels have fuel elements in configurations that are unsuitable to create explosions. Remember that atomic bombs both need a very high enrichment level and a very precise shape to be able to explode. That's why it is difficult to produce atomic bombs.

We need nuclear, but not like this. Breeders!

[TerranFury]

If it's not a fast breeder reactor, it's not a solution to the energy problem.

U235 would run out within the next 60 years, IIRC, if we got all of our power from traditional nuclear powerplants like this one!

However, the world has tons of U238, so breeders could provide power for a long time. And if you made the changes necessary to run the breeders on Thorium instead of U238 (Thorium is even more abundant), then you coul provide power nearly indefinitely.

Breeders also solve the waste problem: The reason radioactive waste is so dangerous is that it still has tons of energy in it; the decay is the slow release of that energy. Since breeders extract so much more energy from fuel, their wastes have much shorter half-lives, and decay to the levels of naturally-occurring ores within a few hundred years -- which isn't great, but (1) sure beats the millennia we're talking about with our current wastes, and (2) seems to be a timescale society can handle.

We need breeders. Pebble-beds are wasteful; they (1) don't breed, and (2) generate a lot of pebble-coating waste. Anything but breeder reactors, and solar/wind/geothermal/hydro, is a waste of time. Breeder reactors are the only technology we currently have that can solve the energy problem. We should be building breeders.