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  • Nuclear power is like the unloved child of sustainable energy. It’s got so much potential,

  • but it only gets noticed when it does something wrong. If only people could just see how cool

  • it is.

  • Ahoy-hoy fallout boys and girls, Julian here for DNews and today were going to talk

  • about nuclear power. Now I know this is an element that splits the internet and leads

  • to an explosive chain reaction (see what I did there?) but we are going to gingerly handle

  • this sensitive material like the science-loving adults that we are.

  • The most popular green energies people like to discuss are solar and wind power, and I

  • agree, the idea of harnessing the phenomenal cosmic power of the sun and...snazzy earthy

  • blowingness of wind is pretty cool. But were going to have to upscale our production in

  • a big way if we are going to meet demands. Last year in the US, wind provided 4.13% of

  • our power, and solar? A microscopic .23%. So we’d need almost 25 times as much of

  • each just to meet demands, not to mention we’d have to overproduce and store energy

  • for when it’s dark and not windy. And well have to build the storage facilities.

  • Meanwhile nuclear provides 19% of our energy in this country, but were using an idea

  • we haven’t updated since the 50’s; the Light Water Reactor.

  • Light Water Reactors split uranium 235 to heat water. In the US this water is kept at

  • extremely high pressures to keep it in liquid form. This super-heated super-pressurized

  • water then heats a second loop of water, turning it to steam and driving a turbine. Reactors

  • like this became widespread because of their simplicity, but they only use about 5% of

  • their fuel and the waste is radioactive for 10,000 years. The fuel can be recycled though.

  • France has been relying on nuclear power since the 70s and by recycling, the total amount

  • of high-level waste that could give a family of 4 power from when the kids are born until

  • theyre in college is about the volume of a cigarette lighter. You still have to put

  • that somewhere, and waste storage is one of the major dividing issues. Don’t kid yourself

  • though, in California alone the production of solar panels makes over 13 million tons

  • of toxic waste annually, and that’s just stored somewhere too. There’s no such thing

  • as a free lunch.

  • Molten Salt Reactors were a competing idea that were shelved in the 60’s, despite the

  • fact that engineers built reactors that proved they could work. Lately interest in them is

  • growing because of their potential benefits. The concept is liquid salt is the reactor’s

  • coolant, meaning it doesn’t need to be pressurized like it’s light water counterparts. This

  • means there’s no complications from loss of pressure like the rapid expansion of radioactive

  • gas or loss of coolant to the reactor. In fact it’s possible to design molten salt

  • reactors in such a way that they are self-regulating and melt-down proof. Pretty neat, huh?

  • And it gets better, Molten Salt Reactors that would use Thorium as their fuel source would

  • use almost 100% of their fuel. And they would breed more of their own. When thorium 232

  • is hit with a neutron, it absorbs it and eventually decays into uranium 233. U-233 is fissile,

  • and shoots out 2 or 3 more neutrons. These can keep the chain reaction going and also

  • bombard more thorium to generate more uranium. Thorium has the benefit of being 3 to 4 times

  • more abundant than uranium, and right now is just a hazardous waste byproduct of rare-earth

  • mining. So were already digging the stuff up, and have nothing to use it for.

  • Thorium 232 has a half-life of over 14 billion years, but once it’s been used in a Liquid

  • Fluoride Thorium Reactor, 80% of the waste decays to safe levels in 10 years. A small

  • amount would need up to 300 years before it was safe, but that beats 10,000 years by a

  • long shot. And the products of a LFTR reactor are harder to use for nuclear weapons, so

  • there’s less of a worry about nuclear proliferation. Not that we don’t have enough weapons to

  • murderize everyone already.

  • MSRs still have issues of their own to work out, like keeping the liquid fluorides from

  • corroding the metal theyre stored in. China thinks they can solve these problems and make

  • safer, more sustainable, and less polluting nuclear power. Theyve planned to have a

  • functioning thorium reactor within the next decade.

  • If youre worried about the storage of nuclear waste, Anthony has some pretty cool info for

  • you here about how it’s compacted and stored.

  • What are your thoughts on the future of energy? Do you have a personal favorite solution?

  • Let us know in the comments. I’ll see you next time on DNews.

Nuclear power is like the unloved child of sustainable energy. It’s got so much potential,

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