Swiss try to give away nuclear plants, but find no takers

Swiss try to give away nuclear plants, but find no takers

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Swiss reactor operator Alpiq reportedly could find no buyer for its two nuclear plants and is therefore hoping to give them to the Swiss state.

Gösgen Nuclear Power Plant, Switzerland (Photo by, edited, CC BY-SA 1.0)
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Energy Transition

The operator of Switzerland’s nuclear reactors, Alpiq, reportedly offered reactors to France’s EDF at no cost or “a symbolic franc.” The French, who have their hands full with their own struggling fleet at home, refused the offer. A potential power shortfall still looms in the background. Craig Morris explains.

Gösgen Nuclear Power Plant, Switzerland (Photo by, edited, CC BY-SA 1.0)
Gösgen Nuclear Power Plant, Switzerland (Photo by, edited, CC BY-SA 1.0)

On the weekend, Swiss media reported (in German and in French) that Swiss reactor operator Alpiq could find no buyer for its two nuclear plants and is therefore hoping to give them to the Swiss state. The firm’s CEO is quoted saying that France’s EDF was not interested even at no cost because it “has its own problems pertaining to nuclear power at present.”

It is possible that the announcement is a bargaining chip just in case the Swiss decide in their referendum later this month to phase out nuclear. Alpiq’s Gösgen reactor would then have to close in 2024; Leibstadt, in 2029. The company may thus be looking for ways to ask for money from the Swiss state in return for a closure. At present, the firm is apparently losing 2 billion francs annually but can only pass on half of those losses to consumers.

Oddly, neighboring France faces a power shortage that should lead to greater demand in Switzerland; the aforementioned losses have been part of a longer trend stemming back to the solar boom of Germany (see my report from 2012), which began bringing down prices on spot power markets despite Chancellor Merkel’s nuclear phaseout of 2011. Solar and wind have simply grown faster than anyone expected.

As I recently explained, France has more than a third of its reactors closed at present. At the beginning of November, it was announced (in French) that five of the 20 reactors (out of 58) currently undergoing inspections would not come back online this month as expected.

Concerns of a power shortage also extend to the UK, where system operator National Grid warned of a potential shortfall on Monday, November 07. Power prices have reached as high as 40 pence on the spot market, whereas 4 pence would be more usual (play around with this table). The British were importing power full blast on line from the Netherlands and France, thereby contributing to the drain on French supply.

As a result, French prices were also high that Monday, reaching nearly 40 cents. But that’s nothing: a power trader says it is “almost certain” that France will reach its price cap of three euros per kilowatt-hour on the exchange this winter. The head of EDF, which operates all of France’s reactors, has now said that the danger of a blackout this winter is real (in French). At that point, France might import from the UK no matter what the cost, and the British would fire up their strategic reserve.

On Sunday, November 6, France was still a net exporter to most neighbors, except Germany. Between those two countries, power lines were maxed out as France imported as much electricity as it could from the Germans most of the time. Power prices on the exchange were thus unaligned, with the French easily paying 10 percent more, but up to 50 percent more during the evening, when demand peaks.

This phase could be temporary (until the spring) for the French, but only if they can get reactors back online. On the other hand, the country aims to reduce the share of nuclear from 75 to 50 percent by 2025, so the current situation shows what that future would look like if replacement capacity is not built. And in case you are thinking they should build solar and wind: the sun does not shines in these winter hours of peak demand, and the shortfall in production in the UK coincided with low wind power production. The one country that looks good in Germany, where a broad bouquet of power sourcesnuclear, coal, gas, and renewablesare online. And the share of renewables almost never drops below 20 percent in Germany.

The problem is thus that France and the UK have failed to build enough renewables, especially biogas plants running on waste (which are dispatchable), while they wasted time hoping to build nuclear plants that never emerged. As for the Swiss, well, they have suffered from the same indecision but may set it aside finally in their referendum on November 27.

Source: Energy Transition. Reproduced with permission.

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  1. Ian 4 years ago

    Why would no one want to buy these Swiss nuclear power plants, is it because the buyer would be responsible for decommissioning and disposing of the nuclear waste?

  2. neroden 4 years ago

    Batteries, dudes, batteries…

  3. Carl Raymond S 4 years ago

    Must remember this article. The ultimate response to the pro-nuclear shills.

  4. Jeffrey Michel 4 years ago

    Classifying biogas and biomass as renewable energies is questionable. The CO2 emissions from their combustion require many decades to be fully re-assimilated by terrestrial vegetation, during which time they raise carbon concentrations in the atmosphere. More than a quarter of this carbon dioxide is absorbed by the oceans in the same manner as fossil fuel emissions, depressing pH levels and destabilizing certain marine ecosystems. In Germany, biogenic fuels presently contribute twice as much (8%) to fulfilling the country’s primary energy demand as non-combustive renewable energies, chiefly wind and solar power. Once Germany has abandoned the 7% contribution of nuclear power to total energy demand, therefore, the current complement of solar and wind power would have to be tripled to bridge that gap without altering carbon balances in the natural environment.

    EPH has no near-term plans to terminate lignite power generation in eastern Germany. Future nuclear reactor phase-out in Bavaria and Baden-Württemberg combined with restricted capacities in France constitute a potential market opportunity for electricity imports from the Czech Republic and Austria, which would be supplied from nuclear power generation at Temelin and Dukovany and lignite in North Bohemia and Lusatia.

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