Green New Deal vs Nuclear New Deal
Over at The Bellows, Emmet Penney and Adrián Calderón take the Green New Deal brand for a spin to propose a Nuclear New Deal for solving both power grid issues and environmental concerns like climate change.
No nuclear energy program has ever launched without heavy state intervention—the capital costs are just too high for private entities to take on. The Biden campaign says it wants to rely on “innovation” and “rapid commercialization” to drive down costs for nuclear energy, but that means praying to the gods of Silicon Valley for rain.
The price-trolling is disingenuous. Other countries, especially those that at least partially subsidize their nuclear industries pay less than we do for nuclear. Russia’s Rosatom, for example, benefits from its industrial capacity and experience, the two ingredients necessary for cheaper nuclear production. Unlike most industries, innovation actually makes nuclear more expensive. As researchers Michel Berthélemy and Lina Escobar Rangel have pointed out, construction costs can only be reduced by mass-producing identical reactors, assembly-line style.
In order for this to work in the United States, the federal government could consolidate the nuclear arms of General Atomics, General Electric, Westinghouse, and others into a single public corporation. This federal entity would be mandated to decarbonize the American electricity grid.
First, the US will need to commit to an industrial policy like those of France and South Korea, which allowed them to create their own nuclear programs to manufacture the necessary reactors. These reactors (and their plants) will need to be standardized if they’re going to recoup the aforementioned benefits of repetitive construction. A substantial number of new reactors will need to be built per year, so American industry would have to increase its construction capacity, especially to provide the necessary heavy forging. Reactors already in service should undergo safety reviews that extend their licensing. They should also undergo refurbishment and retrofitting with technical upgrades to increase efficiency and safety. Alongside the reactor buildout, a strong domestic fuel cycle industry to provide the uranium would need to be developed.
Second, the US will have to train a workforce. Staffing these new plants would strain the capacity of the currently existing nuclear engineering programs in both academia and industry, which need to pass along decades of expertise to a new generation of nuclear workers. In the original spirit of the National Defense Education Act of 1958, the federal government should forgo market incentives and directly award government grants to higher education institutions, vocational schools, and students in nuclear energy and related fields to scale up along with the growing industry as quickly as possible. Not counting construction, and taking the Diablo Canyon plant as a model, an estimated 250,000 workers will be needed to operate some 230 of these plants in perpetuity.
While I agree with the sentiment, I take issue with the idea that we need to run with what we’ve got. A big focus of current innovation is A) making reactors modular and easy to manufacture Assembly Line style; and B) moving away from pressurized boiling water reactors.
So first we need a new, safer class of reactors approved for use, then we can do this. And that requires getting that new class of reactors approved, which Brother Michael will tell you, is not something that will happen easily.Report
My takeaway was that while we need the new, assembly-line type reactors, we also, in the meantime need to get the current ones going at full potential and keep them there as long as possible.Report
Almost every reactor that has applied for a license extension has been granted an additional 20 years. Many of them have had their allowed maximum output increased.
OTOH, Congress and the FERC have largely mandated a particular market structure. Many nukes simply aren’t competitive in that market.
A few cases are different. San Onefre in California is shut down because somehow the owners and Hitachi managed to screw up the replacement steam tubes. It was cheaper for the owners to buy electricity from other sources than to lay out the cost to replace the steam tubes again (sometime down the road after the courts had affixed blame). Diablo Canyon in California will be shut down fundamentally because of global warming: proliferating jellyfish periodically block the cooling water intakes, and the plant no longer meets the discharge temperature requirements. Fixing either problem would run to a few billion dollars and higher operating costs.Report
Assuming things hold up in court, there will be a modular reactor test. The NRC has licensed a NuScale reactor (60 MWe) to be installed at the Idaho National Labs funded by a group of small Utah utilities. Can this be reproduced? Putting it on DOE property bypasses the problem that very few (maybe no) states have issued new business licenses for commercial reactors. Putting it on DOE property allows the project to preempt Idaho water law and take cooling water from the over-committed Snake River. One of the court cases (there may be several, ultimately) will raise the question of whether producing commercial power spent fuel at the INL site violates DOE’s legal agreement with Idaho to not bring any additional spent fuel into Idaho until the existing mess at INL is cleaned up.Report
I’m 100% down with the sentiment though I feel like they shortchange the possibility of new technology. I mean the current fleet is running on, what, 70 year old technology?Report
It’ll create jobs that will need to be done? Well, we’d better start importing people who can do them. That’d be a lot cheaper than training people in the US and it’ll help keep the prices of energy low.
(Maybe we could make the plants in Canada and they could send the power down to the US? There’s an exchange differential that we could take advantage of.)Report
Or maybe we’ll just have the plants made in China. It’ll work out as well as the new Bay Bridge, I’m sure!Report
Both short and medium term, nuclear will have to be part of the solution. That said, we don’t have much nuclear capacity left in the US, and the investment needed to get it going won’t come from the private sector, no matter how many tax breaks you give them. We also lack a cohesive and robust grid to move electricity – look at what California had to do earlier this summer to keep from setting more fires caused by overloaded power lines.
And tat’s because we STILL have no national strategy for disposal of spent fuels. My understanding is the kind of reactors that Andrew and Oscar are discussing will crate less of a fuel burden, but with Three Mile Island, Chernobyl and the Hanford Nuclear test site warped into modern civic discourse (and all three badly and without regard for the actual truth), having a “safe place” to put spent fuel is really important.
I also think we some more plainly written economic studies of costs and payoffs to see whether nuclear really makes sense with advances in Wind, solar, and hydro power.Report
I don’t see any way that the Eastern Interconnect gets to no-carbon electricity in anything like the time frames tossed around without nuclear. OTOH, the Western Interconnect has, according to a lot of work done at the national labs, a pretty good chance of being able to do it with just renewables. Intentionally or not, the WI states have committed to that path. It remains to be seen if the federal government allows those states to take the steps necessary to accomplish it.Report