We cannot get a coherent accepted long-term plan. The French have a long-term plan. The Koreans, the Chinese, the Russians have it. We don’t have it. That’s not the fault of the labs, that’s the fault of the administrations.
Burton Richter is my #1 choice for energy policy advisor. In the recent Breakthrough interview you’ll read the true story of the state of Gen IV reactors and what passes today for “US policy”:
When it comes to nuclear energy, Dr. Burton Richter is Mr. Credible. Winner of the 1976 Nobel Prize for discovering a new sub-atomic particle, Richter has advised presidents and policymakers for almost 40 years. Richter has been a Breakthrough Senior Fellow since 2011, and is technical adviser to the forthcoming documentary, “Pandora’s Promise,” about pro-nuclear environmentalists.
Breakthrough interviewed Richter recently to get his opinion on next generation nuclear reactors, and why so many of them are being developed abroad and not by the Department of Energy in the United States. “The DOE is too screwed up to go into a partnership and do this in the US,” the blunt Richter told us, referring to the Bill Gates-backed nuclear design pursued in China by Terrapower.
Is DOE really to blame? In the end, Richter told us it was partisan polarization that was the problem. “George W. Bush actually had a good thing on next generation nuclear,” Richter said. “When the Obama people came in all the Gen IV activities were stopped. With a system that keeps changing its priorities every few years, the [National DOE] Labs are pretty demoralized. The French have a long-term plan. The Koreans, the Chinese, the Russians have it. We don’t have it. That’s not the fault of the labs, that’s the fault of the administrations.”
And that’s the fault, we might add, of irrational environmentalist and progressive fears of nuclear energy — something “Pandora’s Promise” hopes to change. Read the rest of our interview below.
What is the future of next generation nuclear reactors?
What about the reactor designed by Nathan Mhyrvold and backed by Bill Gates through Terrapower?
They had to change designs because the original design of a kind of slow-burning candle didn’t work. The new version is supposed to have a core that would be sealed for 50 years. But it’s not completely sealed because you have to shuffle the fuel rods. One advantage is that that at the end of 50 years, the waste is so impure that nobody would want anything to do with it for making a weapon.
Terrapower is being done in China because in the US there’s no way he could get it licensed. And the DOE is too screwed up to go into a partnership and do this in the US.
We always hear from people that DOE is screwed up. But what exactly does that mean? Can it be fixed?
Consider the fact that the DOE can, at one of its labs, go ahead with an experimental fission system that is not approved by the Nuclear Regulatory Commission (NRC). After all, the DOE is supposed to develop new technologies, while the NRC is supposed to deal with things in the civilian nuclear world.
In other words, the labs don’t need NRC approval to make a 5MW version of TerraPower’s reactor. They could just go do it. But it’s so agonizing to get [lab] approval for that kind of thing. So political. Ultra-greens would say too dangerous and NRC has to approve it, and NRC would say it will look into it and it would take a decade.
That’s the reason Nathan [Mhyrvold] and Bill Gates said, “Let’s build the first one in China.”
Is the problem with Congress or DOE?
Both. At DOE there are a lot of layers of bureaucracy and very little continuity. Everything changes with every new administration. The long-term goals change. The result is that the labs have become very conservative.
With a system that keeps changing its priorities every few years, the labs are pretty demoralized. We cannot get a coherent accepted long-term plan. The French have a long-term plan. The Koreans, the Chinese, the Russians have it. We don’t have it. That’s not the fault of the labs, that’s the fault of the administrations.
Is this a problem of ideological and partisan polarization?
George W. Bush actually had a good program on next generation nuclear. We were part of the Generation IV International Forum, working closely with Japan and France. We had a program that was headed toward certain kinds of advanced reactors, including liquid sodium, and a high temperature gas reactor. When the Obama people came in all the Gen IV activities were stopped. Yucca Mountain was shut down. And we’re off in totally new directions.
Partly, but there were even changes between the first George W. Bush term and the second. In first term, they were talking about reprocessing, and the second Gen IV designs. We have an on again off again program that changes too often. The next problem is the budget. The DOE nuclear budget is a complete mess. They are working off of a continuing resolution, and in that process you always take the lower budget line from either the Senate or House. This creates massive amounts of uncertainty in the programs.
Who can change that? Can Obama just tell the labs to build a next gen nuclear reactor?
No, it has to go to Congress to change. The whole structure has to change.
What’s your general impression of the integral fast reactor (IFR), the prototype of which ran at Argonne-West [which is now part of Idaho] National Lab, and is now being marketed by General Electric as the PRISM reactor?
The IFR is a sodium-cooled fast spectrum reactor with all the good and bad that come with it. The one sodium cooled reactor at Hanford ran for thirty years until we drilled a hole into it [after Congress ended funding for it in 1994]. France and Russia built versions as well.
What’s new to the IFR is the on-site reprocessing, and the feeding back of the actinides [radioactive elements like uranium and plutonium] back into the fuel, so that nothing ever leaves it. The new IFR trick is in the electrorefining [sometimes called pyroprocessing] to reprocess the waste into new fuel, making it a continuous fuel cycle. So think of the IFR as a liquid sodium fast spectrum breeder reactor with a trick as to how to do the separation of actinides in an effective fashion.
Electrorefining is the most interesting new element in the IFR, but it has been hard to figure out how to get it working well enough to be used commercially.
Who is working on improving electrorefining?
South Korea is very interested in electrorefining and would like to do a joint program with the US. The question is whether we’ll let them do it. The 123 agreement we have with them says that the US has to agree to any reprocessing. The Nuclear Energy Advisory Committee to the DOE has said that if you’re going to do this, then having a Korean partner would be a great idea.
Wouldn’t technologies like the IFR greatly reduce the amount of waste needed?
You need a geological repository anyway because you always have fission fragments, and that’s the really radioactive stuff. So if pyroprocessing worked perfectly the long lived components would be removed to be used as fuel, and after 500 years you wouldn’t have to worry about them any more because the radioactivity would be low.
So you’ll still need a repository, though probably not for 100,000s of years. But there’s a big if here. How efficiently can you separate these long-lived actinides from the fission fragments? If you allow only a few percent of the actinides in, then it will be for 100,000s of thousands years. It has to be really good. Right now, it’s not that good. The people working on it say they have good ideas but they haven’t fixed it yet.