Why Nuclear is Cheaper than Wind and Solar

Wind and solar supporters have a nasty habit of pretending that their preferred energy sources are the “cheapest forms of energy.”

The problem, of course, is that they use unrealistic Levelized Cost of Energy (LCOE) estimates—see Cooking the Books for wind and solar—and they conveniently forget to mention the large system costs needed to reliably serve electricity demand using these unreliable energy sources.

That’s why, despite its high up-front capital costs, powering an electric grid with nuclear power is cheaper than using wind, solar, and battery storage.

Before we jump into the benefits of nuclear power, it’s important for our readers to understand that building a fleet of nuclear power plants will be very expensive, which will increase costs for ratepayers. A forced energy transition of any kind is going to increase costs inherently, and nuclear is no different.

If your main priority is reliable, low-cost power, keeping the existing coal and natural gas plants online and building new natural gas plants as needed will be the more affordable option.

If decarbonizing the electric grid is your main priority, building new nuclear power plants will deliver a superior value to electricity customers, with reliable service at a lower cost than a grid powered largely by wind, solar, and battery storage.

The Benefits of Nuclear Power

American energy policy has been focused on “transitioning” to so-called cleaner energy sources for a number of years. However, even nuclear plants have fallen victim to this transition, even though they are the most reliable source of emission-less generation.

Nuclear power plants are a proven baseload and emission-free technology with the potential to offer low-cost electricity for decades longer than wind, solar, and battery storage facilities. As such, nuclear power plants are a much better replacement for coal or natural gas plants than wind, solar, and battery storage because they are reliable, inexpensive, and last a long time.

Below, we highlight a couple of the most important benefits of nuclear power and why it is, in fact, lower cost than wind and solar. This will show why energy policy in the states should be more focused on nuclear energy than wind and solar if policymakers are serious about reducing emissions reliably and affordably.

Dispatchability is King

Our definition of a reliable generator is dispatchability, meaning the unit can be turned on or off as needed.

Because nuclear plants are dispatchable, they don’t require backup generators or batteries like wind and solar facilities, and there is no need to overbuild and curtail the plants to ensure there is enough electricity available when the wind isn’t blowing very hard, or the sun isn’t shining.

In our 2022 report on the cost of Minnesota’s 100 percent carbon-free electricity mandate by 2040, we found meeting Minnesota’s electricity demand would require 100,455 megawatts (MW) of installed capacity under the renewable scenario.

In contrast, this same job could be done by just 16,379 MW of new and existing nuclear plants, some battery storage, and retrofitting a North Dakota coal plant with carbon capture and storage technology.

The Renewable Scenario uses Minnesota’s existing nuclear plants and adds tens of thousands of MW of wind, solar, and four-hour battery storage.

Building excess wind, solar, and battery storage capacity in the Renewable Scenario was necessary to keep the lights on during periods of low wind and solar output, but it was also very expensive.

As part of our modeling, we analyzed the “all-in” system cost of each energy source, which is a much better representation of the cost of serving load than traditional Levelized Cost of Energy (LCOE) values, which leave out the cost of keeping the lights on with intermittent sources.

Our modeling found the additional costs of battery storage, referred to as “load balancing” in our report, and overbuilding and curtailment resulted in wind costing $272 per megawatt-hour (MWh) and solar costing $471 per MWh.

Load balancing is the cost of battery storage. Overbuilding and curtailment costs are so high because it was cheaper to overbuild wind and solar and curtail them than building more battery storage.

Meeting electricity demand with new nuclear power plants was much cheaper.

We modeled the cost of the APR-1400, a South Korean reactor, and found the cost of serving load was $69 per MWh. Small modular reactors (SMRs), based on EIA cost estimates, were modeled to generate electricity for $213 per MWh if used as peaking resources and $120 per MWh if used in a baseload capacity.1

The APR-1400 was modeled because it has a successful track record for completion, with four units being built in the United Arab Emirates in a 12-year span. SMR capital cost data were obtained from the U.S. Energy Information Administration.

Additionally, it’s important to note that the costs for new nuclear plants above are only for the duration of the model, which was through 2040. As will be shown below, these costs would decrease over time, unlike wind and solar facilities.

Nuclear is Very Cheap…In the Long Run

The other main benefit of nuclear power plants is their longevity, making them a long-term value play.

Nuclear plants are initially licensed for 40 years and can apply for 20-year extensions thereafter. For example, in its Integrated Resource Plan, Arizona Public Service assumes a 40-year book life for nuclear power plants.

However, nuclear plants can last twice as long as this estimate, and a growing number of nuclear plants have applied to operate for 80 years, allowing them to generate very cheap electricity for decades.

The main cost for a nuclear plant is paying down the upfront capital cost of the plant. In a way, building a nuclear plant is a lot like taking out a big mortgage on a house. As you pay it off, it becomes cheaper to live there. When the mortgage is fully paid, the house is a very low-cost place to live. It’s the same with a power plant.

The graph below shows the annual cost of electricity from a nuclear power plant. The costs in the initial years are high, but once the capital costs are paid off, the only costs are fuel and operating expenses.

Nuclear is Lower Cost than Wind and Solar

The benefits of nuclear power – mainly, its dispatchability and longevity – result in far lower system costs than wind and solar.

We see this all the time in the real world. FERC Form 1 data consistently show existing nuclear plants generating electricity for $20.15 per MWh in Virginia, $21.71 per MWh in North Carolina, $37 per MWh in Minnesota, and $26.19 per MWh nationwide. 

Even without accounting for the system cost of incorporating wind and solar onto the system, the existing nuclear fleet in America is less expensive than existing wind and solar facilities, which cost $52 per MWh and $73 per MWh, respectively, according to FERC Form 1 data.

Conclusion

Nuclear power plants provide a superior value to consumers relative to wind and solar because of their dispatchable characteristics. This means less installed capacity can serve more load, more predictably. This eliminates the need for backup generators and overbuilding and curtailment.

Not accounting for system costs when considering which energy sources to build on the grid is one of the most egregious oversights in the energy industry, one that has led to incredible inefficiency and rising energy costs for many Americans.

When one does consider system costs and long-term value, nuclear plants are by far the most affordable carbon-free energy source that gives energy consumers the most bang for their buck.

If the ongoing “energy transition” were serious, it would allow for more realistic timelines that stretch many decades into the future and the replacement of retiring coal plants more naturally with nuclear plants – instead of the premature retirements before suitable replacement capacity can even come online, as we have seen thus far.

This piece originally appeared at EnergyBadBoys.substack.com and has been republished here with permission.

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Comments (5)

  • Avatar

    solarsmurph

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    This article conveniently ignores the cost of construction, the operating costs, and the big-one – the cost to deal with the spent fuel – and this does not include the cost of decommissioning a nuclear power-plant when it has outlived its operating lifetime. Burying the spent fuel it in a mountain or deep in the ocean does not make it safe for our generation or future generations…
    Anyone remember 3-mile Island, Chernobyl, Japan’s Fukushima on-going nuclear disaster and draining the reactor into the oceans (on-going).

    Reply

  • Avatar

    Flann O'Brien

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    Walk-away-safe thorium reactors consume the “nuclear waste” from inefficient conventional uranium reactors and their output is low level radioactivity that dies out in decades.

    Thorium reactors have been in existence since Weinstein’s 1950’s working reactor. We should be running 5’th generation thorium reactors in every town by now.

    Luddite false “greens” and political clowns have dutifully followed bankster’s sacred #1 rule : deny abundant energy until after the Great Reset (aka lock-down and enslavement of humanity).

    Witness power hungry Indonesia. Thorcon has thorium reactors ready to run, constructed in Taiwan, but the local puppets are insisting only after 2037. See thorconpower.id

    Reply

  • Avatar

    VOWG

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    All forms of electrical generation require the use of coal, oil and gas in their production. Think very deeply about that.

    Reply

  • Avatar

    James

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    Best use gas so long as it’s available, highly efficient thanks to high temperatures and district heating, easily transported, no waste products, any size easily available, long life plant and no technology holes. Future generations are welcome to any real alternatives they can find. Not our business now. Just don’t rely on foreign dictators for supply. The small amount of CO2 will have no effect on climate in any case; it’s changing as ever, and won’t stop any time soon. The problem will be water, not energy, when there’s no ice left at all, in India and in China. Both depend on the Himalayas, and both want a big slice.

    Reply

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