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Germany Rejected Nuclear Power—and Deadly Emissions Spiked


Karlston

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On New Year’s Eve, while the rest of the world was preparing to ring in a new decade, employees of the German energy company EnBW were getting ready to pull the plug on one of the country’s few remaining nuclear power plants. The license to operate the two reactors at the Philippsburg nuclear facility expired at midnight after 35 years of providing carbon-free power to Germans living along the country’s southwestern border. The Philippsburg plant was the 11th nuclear facility decommissioned in Germany over the past decade. The country’s remaining six nuclear plants will go dark by 2022.

 

Germans have always had a complicated relationship with nuclear power, but the radioactive cloud that swept over Germany following the Chernobyl disaster in the mid-1980s gave new life to the antinuclear policies supported by the country’s Green Party. Following Japan’s Fukushima Daiichi plant meltdown, Germany’s antinuclear lobby kicked into high gear, and tens of thousands of people took to the streets in protest. The German government quickly passed legislation to decommission all of the country’s nuclear reactors, ostensibly to keep its citizens safe by preventing a Fukushima-style disaster. But a study published last month by the nonprofit National Bureau of Economic Research suggests that Germany’s rejection of nuclear power was an expensive and possibly deadly miscalculation.

 

To uncover the hidden costs of denuclearizing Germany, economists used machine learning to analyze reams of data gathered between 2011 and 2017. The researchers, based at UC Berkeley, UC Santa Barbara, and Carnegie Mellon University, found that nuclear power was mostly replaced with power from coal plants, which led to the release of an additional 36 million tons of carbon dioxide per year, or about a 5 percent increase in emissions. More distressingly, the researchers estimated that burning more coal led to local increases in particle pollution and sulfur dioxide and likely killed an additional 1,100 people per year from respiratory or cardiovascular illnesses.

 

Altogether, the researchers calculated that the increased carbon emissions and deaths caused by local air pollution amounted to a social cost of about $12 billion per year. The study found that this dwarfs the cost of keeping nuclear power plants online by billions of dollars, even when the risks of a meltdown and the cost of nuclear waste storage are considered. “People overestimate the risk and damages from a nuclear accident,” says Akshaya Jha, an economist at Carnegie Mellon and an author of the study. “It’s also clear that people don’t realize the cost of local air pollution is pretty severe. It’s a silent killer.”

 

Germany is unlikely to reverse course, but the study’s conclusions provide an important lesson for the United States, where the future of nuclear energy is increasingly uncertain.

 

The US fleet of nuclear reactors is rapidly approaching the end of its regulatory lifetime—almost all were built before 1990—and the only two new reactors under construction have gone way over budget. Cost overruns end up driving up the price of the plant’s already expensive electricity. In many energy markets in the US, nuclear energy struggles to compete with the glut of cheap natural gas and heavily subsidized renewables. Attempts to extend the lifetime of existing reactors, meanwhile, also run into economic and political hurdles.

 

Other than California, no states are aiming to phase out nuclear power entirely, but some plants may close down in the future simply because operators can’t afford to stay in business. The question, then, is whether the closure of these plants in the US will ultimately drive up carbon emissions, as it did in Germany.

 

Jonathan Cobb, a senior spokesperson at the World Nuclear Association, says the only way to close nuclear plants without increasing carbon emissions is to shut down coal or other fossil fuel plants at the same time. “When you have around a third of your electricity generation coming from coal, as the US does, choosing to close any nuclear plant ahead of a coal plant is just not environmentally responsible on any level,” Cobb says.

 

The UN has stated that nuclear power will have to be a part of the energy mix to keep global temperatures from rising more than 2 degrees Celsisus. Last year, the International Energy Agency said that not keeping nuclear power at its current levels will make hitting our climate goals “drastically harder and more costly.” To make nuclear power more competitive, the country could subsidize nuclear plants directly or through credits that reward clean energy generation. Politicians recently proposed such programs in Illinois and Ohio, but they remain contentious.

 

“Subsidizing nuclear plants is clearly not the sign of a healthy industry,” says Jonathan Lesser, president of the energy consultancy Continental Economics and author of a recent paper on nuclear energy for the Manhattan Institute. Instead, he suggests cutting subsidies for renewable energy generation to make nuclear more competitive in deregulated energy markets. Others have proposed carbon taxes on fossil fuel generation. Both options have detractors: Renewable companies don’t want to lose their subsidies, and fossil fuel companies don’t want carbon pricing. Amory Lovins, cofounder of the Rocky Mountain Institute, a nonprofit energy research organization, suggests nuclear subsidies are not the best way to lower CO2 emissions. According to Lovins’ calculations, redirecting those subsidies to energy efficiency programs instead could “indirectly save more CO2 than closing a coal-fired power plant.”

 

But all hope isn’t lost for atom splitting in the US. Even if America’s massive legacy nuclear reactors shut down, a new generation of small, modular nuclear reactors is expected to come online before the end of the decade. These reactors promise to be cheaper and safer than existing reactors and have several applications outside of electricity generation that might make them more politically attractive. “If reducing CO2 is the most important thing to you, above all else you should be embracing them,” Lesser says.

 

But in the US, as in Germany, that may still be a hard sell.

 

 

Source: Germany Rejected Nuclear Power—and Deadly Emissions Spiked (Wired)

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40 minutes ago, Israeli_Eagle said:

Well... Have a look here, that's more interesting:

 

Inetersting indeed, but like so many of these graphs, they're largely useless for any power generation technology that isn't baseload, ie 24/7 capable.

 

Saying that a certain technology generated X GWh in a day/week/month/year/whatever, and power consumption was Y GWh for the same time period, and concluding that it contributed the fraction X / Y of power consumption is just plain wrong.

 

NOT picking on solar here, just using it as an example... most solar energy production occurs during periods of relatively low power consumption. Without energy storage, IMO the huge missing piece of the renewables solution (stored hydro aside), any excess is wasted and is not being consumed.

 

The most accurate and informative graphs are those that chart over 24 hour periods and show consumption as well as production. Only then can it be seen how much each technology contributes to actual consumption, and that is the most important thing IMO.

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Israeli_Eagle
14 minutes ago, Karlston said:

 

Inetersting indeed, but like so many of these graphs, they're largely useless for any power generation technology that isn't baseload, ie 24/7 capable.

 

I think they not have to be capable 24/7, instead the EU power system fixes that auto. :coolwink:

So also in that communities are very useful!

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