Ratepayers First: The Economic Case Against Nuclear’s Data Center Dreams

October 23 Washington Post editorial endorsing nuclear energy as a tool for combating climate change was astonishing and ignorant. Georgia is the first state to build nuclear power in 30 years and the Wash Post editorial board profoundly mischaracterized what happened here, and as with nearly all essays in support of nuclear, it never mentioned impacts to ratepayers, those who are actually paying for Plant Vogtle.

Perhaps the Wash Post editors did not know that Georgia Power added $11.1 billion to its rate base, the assets on which it earns a profit, for its 45.7% share of the project. That amount of money for just 1,020 MW of generation is a horrible thing to do to ratepayers. Plant Vogtle cost eight to 10 times more than any other type of generation and resulted in a 25% rate increase, the largest in Georgia’s history. Yet, this achieved only a 7.5% expansion in Georgia Power’s capacity.

Glib claims that Vogtle was “FOAK” (first of a kind) and lessons learned will reduce future costs ignore the magnitude of the cost overruns and severity of the management failures. Real reasons for cost overruns include leaving expensive components in fields unprotected from weather and without a chain of custody resulting in a failure rate of 80%, and creating materially inaccurate project schedules for Georgia Public Service Commission (PSC) filings to make it appear that construction milestones had been reached when they had not. These and other deceptive behaviors led to costly construction mistakes that are not related to FOAK.

Georgia Public Service Commissioner Tim Echols, a frequent contributor to POWER magazine, was public in his opinion that the commission should not review Vogtle’s construction costs for prudency and reasonableness throughout the 15-year timeline of the project, saying that would happen at the end. A settlement agreement on Vogtle reimbursements between PSC staff and Georgia Power was made two months before hearings were to begin, so the promised prudency hearings were never held. Thus, a shared understanding of Vogtle’s failures never took place, leaving room for nuclear supporters to make up reasons for Vogtle’s cost overruns that have no basis in fact.

Now that data centers are growing and the climate crisis is accelerating, nuclear power is being positioned as a solution to both crises. Yet, this is deeply flawed. The timeline for building nuclear is too slow, the costs are too high, and the corruption that follows nuclear power because of the big money involved is ignored. Using nuclear energy to address these crises means regulators won’t have to fix the perverse cost-plus business model that encourages utilities to slow walk or block the clean energy transition, and data centers can grow while keeping their climate emissions pledges intact.

This is very convenient for everyone but the ratepayer. Few people realize that most large industrial customers are on marginal rate tariffs, which are different than traditional base tariffs. Marginal tariffs do not include capital costs. Instead of paying $0.15–0.19 per kWh as most residential customers do, industrials like data centers pay only $0.05–0.06 per kWh .

The recent announcement that Microsoft would buy all the power from Constellation Energy’s recommissioning Three Mile Island carefully avoids mentioning who is paying the (unknown) billions of dollars in capital costs. And if Constellation Energy secures the $1.6 billion Department of Energy loan they seek, those repayment costs will flow to residential rates too, via the traditional base tariff.

Nuclear is a deeply flawed choice when climate change can be addressed affordably and rapidly with renewables and modern grid technologies, and numerous reports show a path toward meeting data center energy needs without nuclear.

What are some of those tools? Innovations in server design, cooling techniques, and software to manage computational loads are a few ways to tame the size of the demand. Another tool is improving system load factor since the U.S. grid’s load factor is generally less than 50%, in part to ensure grid reliability during peak demand. Regulators should require far more demand response to reduce peak costs than they do. One way to increase load factor is to reduce “needle peaks” as Tyler Norris wrote about on LinkedIn and as S&P Global reported. Energy efficiency has never received the investment it deserves for the value it returns.

Ratepayers matter, and it’s time that everyone focuses on what’s best for them. And what’s best for them are affordable electricity bills and rapid decarbonization of the electric grid that does not include paying for expensive nuclear energy to serve data centers.

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Ignorant is an excellent word for it.

There are plenty of wrongs involved.

The biggest nuclear power is very inflationary as an energy policy.

Storage is a headache for the rest of time. Another never counted cost.

The best of nuclear physicists can. Can design can imagine etc…can anything. But the position is entirely ignorant.

The human dilemma.

The endgame will always be solar.

adding

The theoretical maximum efficiency for a solar cell is 33.7%, also known as the Shockley-Queisser limit. This limit is based on the idea that semiconductors can only absorb a certain range of photons from the sun, and any photons outside of that range are wasted as heat.

However, there are ways to increase the efficiency of solar cells beyond the Shockley-Queisser limit, including: Using different materials, Adding more junctions, Using triple-junction solar cells, Using spectrum manipulation devices, and Using thermophotovoltaics.

For example, the National Renewable Laboratory (NREL) developed a solar cell that is 47.1% efficient. This cell is a six-junction III-V solar cell, which consists of about 140 layers of various materials.

The efficiency of a solar panel is also affected by its orientation and exposure to the sun. South-facing panels at a 30-degree angle generally produce the most electricity.

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Where are all the folks who think nuclear power is cheap? Looks like no one wants to defend Vogtle 3&4 boondoggle. Residential power prices rising while Southern Company and Georgia Power fleece the ratepayers.

Jaak

If immediate cost was the only thing that mattered, then the generation fleet should be entirely coal fired, with zero emissions control.

Steve

The point is moot. The resurgence in US nuclear is do to emphasis and money provided by the Inflation Reduction Act. The Department of Energy is making a big push for domestic nuclear.

The president-elect has promised to eliminate the IRA so all that funding will go away. That includes SMR pilot projects, HALEU production at Oak Ridge (necessary for some types of SMRs), as well as funding for proposed re-starts at Three Mile Island and Palisades, and keeping Diablo Canyon in operation. All goes away.

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That is not what the data shows. The Georgia Public Service Commission publishes the residential utility rates in the state. The electric rate shown for Georgia Power (the largest owner of Vogtle) is 16.17 cents per kwh.

According to the Energy Information Administration, the average US residential rate is 16.39 cents/kwh. So Georgia Power is about average, even with the recent additions of Vogtle 3 and 4.

Compare that to California, where they are continuing to add large amounts of intermittent renewable energy and battery storage. The California average residential rate is currently 32.11 cents/kwh! I would much prefer to pay the Georgia Power rate, if I could. But I can’t. I am stuck here in San Diego county, where I get to pay over 45 cents/kwh during the late afternoon and until 9:00 pm each day. Reliable nuclear powered electricity at 16 cents/kwh sounds awfully good right now.

_ Pete

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Are you sure that’s what the data show? The national leader in wind and solar generation by far is Texas. California is a distant second.

The national leaders of wind and solar generation by percentage of total generation is Iowa with 60% and South Dakota with 58%. Let’s look at the residential rates from your link and see if we can detect a pattern high residential rates being coupled with a high percentage of non-hydro renewables:

Texas 14.65
Iowa 13.60
South Dakota 12.81
National Ave. 16.39

The data don’t support your conclusion at all. The reason why your conclusion is invalid is there are lots of things included in utility rates that aren’t directly related to cost of generation. In prior posts, I’ve discussed how electricity is regulated differently in California and Texas which makes an apples-to-apples comparison problematic. So I won’t go over it yet again, but the reason why power is expensive in California in cheap in Texas comes down to is how it is regulated.

But the good news is we don’t have to guess too much what the cost to consumer for Vogtle is. Georgia Power has provided at least some of that for us. I’m sure there is more if you want to dig deeper.

Turns out, regulated approved about a 10% rate increase for costs related to Vogtle, on top of about a $5 month previously existing surcharge (note: surcharges are not the same as rates).

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Your EIA reference only shows the prices for August 2024 and 2023 so you can not claim that the average US residential yearly rate is 16.39 cents/kwh. That is only true for August 2024.

EIA shows Georgia August residential prices as follows
2024: 14.90
2023: 14.12

The 16.39 for the average US residential rate is bogus for comparison because it includes Alaska, Hawaii, California and the New England states. The average for Georgia’s neighboring states is as a better example of increasing costs. Here are prices in neighboring states for August 2024:
Tennessee: 12.45
South Carolina: 14.62
Florida: 13.64

They are all lower than Georgia at 14.90. So we can see that Georgia has higher rates in August and they will be getting higher. But Georgia state rates are not the same as Georgia Power rates.

Georgia Power rates were 17.62 cents/kwh in the summer of 2024 while the Georgia state rates were 15.77 cents/kwh in the summer of 2024.

https://psc.ga.gov/utilities/electric/residential-rate-survey/

I do not see where you get 16.17 cents/kwh. The reference shows 17.62 cents/kwh.

We are not only talking about immediate costs. We are talking about residential cost of electricity and the massive rate increases made by the Georgia PSC.

The amounts of solar power in Iowa and South Dakota are quite small. You are only looking at wind power. California solar is also much larger than Texas. It is the amount of solar that causes rates to skyrocket.

Because of the type of housing I am in, I am not allowed to put solar panels on my roof. I couldn’t afford it anyway. Therefore I am paying for upkeep of the grid more than my neighbors who do have solar panels. That is part of the reason why the electric power rates are higher. The poor people without solar are subsidizing the rich people with solar who don’t pay as much to the utility for the electricity they use, but those rich people still take advantage of the grid for the times they do need it.

Another reason why I am correct is because batteries are not free.

_ Pete

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My post was correct. You are looking at summer rates. I used the winter rate, which is what Google gave me on a search. But even if we use 17.62 cents, that is still much less that California.

_ Pete

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As I said before comparing Georgia to California is bogus. Georgia needs to be compared to Georgia’s neighboring states. Bottom line the rate payers of Georgia Power will be looking to install solar panels on their roofs to avoid their high rates.

Vogtle 3&4 are not providing electricity at 16 cents/kwh. Anyone thinking that does not know electricity rates calculations. Georgia Power has many old/new power plants like coal, natural gas, hydro, solar, wind and nuclear which generate electricity cheaper than Vogtle 3&4, which makes up only 7% of Georgia Power generation total capacity. The Georgia Power average rate for residential electricity is made up of all these power sources.