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Is Germany Making Too Much Renewable Energy?

The energy transition of Europe’s biggest economy is running up against questions with no easy answers.
For Germany, 2020 was a banner year in the production of renewable energy. Clean energy sources—wind farms and solar arrays as well as hydroelectric and biogas plants—ratcheted their share of power consumption up to 46 percent, nearly equaling that of coal, gas, oil, and nuclear power combined. And after a period of stagnation in the 2010s, the greenhouse emissions of the world’s fourth-largest economy have been dropping again, last year by around 80 million tons of carbon dioxide. That puts Germany 42 percent down from its 1990 emissions level, thus surpassing its decade target by 2 percentage points. This trajectory is good news for Germany—and for the EU, which wants to turn the continent carbon-neutral by 2050.

Yet Germany’s move to a power system largely reliant on weather-dependent renewables is quickly running up against limits—issues that all countries exchanging conventional fuels for wind and solar will eventually face. What happens when the sun doesn’t shine and the wind doesn’t blow for hours or even days at a time? And what about the short, dark, cold days of midwinter when renewables of Germany’s power demand?

And it’s not only shortages that are problematic but also surpluses: Stormy days can be so windy that the power flows from wind parks on- and offshore overwhelm the power grid, even triggering its collapse. These electricity tsunamis can threaten the stability of neighboring countries’ energy systems, a brickbat the Poles and Czechs wield. Moreover, when there’s excess power in the grid, prices can go negative, forcing grid operators to pay customers to take the electricity,

The transition from a conventional energy system with 24/7 production to one based on intermittent renewables entails more than just swapping one set of energy sources for another; it demands rethinking and restructuring the entire energy system.

Georg Stamatelopoulos, an energy expert at the utilities company EnBW, sums up the conundrum: “Renewables now cover around half of the demand, and there is still sufficient available power in the system and there is still the possibility of obtaining electricity from our neighbors. What is certain, however, is that further expansion of renewables will increase the volatility in the system. That is why we will always need available service, i.e., service that is available to us when we have the corresponding need.”

Energy blackouts are the bugbear that industrialists and the conventional energy sector have long warned about in ominous tones. Too much or too little power in the grid can indeed prompt energy shortfalls, causing whole regions to go dark and assembly lines to halt. But thus far, in highly industrialized Germany, insulation of buildings and modernization of their energy systems, for example—Germany will in the future still need more power than it uses today for its fleets of electric cars and trucks, for public transportation, for electrified heating, and for producing the hydrogen and e-fuels that will fly planes and produce cement.

This drop-off is steep and fast, and it throws the Germany energy system into unknown territory—where the interests of energy providers, environmentalists, politicians, and grid operators clash fiercely. There’s more than one way to balance the grid, and it will have wide-ranging implications for Germany’s march to carbon neutrality.

The German gas sector and most German industry underscore that flexible, gas-fired electricity generation is the perfect partner for fluctuating renewables. Indeed, the most modern gas-fired power plants emit significantly less carbon than coal and oil. (Damning reports about gas methane emissions, another greenhouse gas, have tarnished its brand but not enough to disqualify it.) The gas lobby and many experts want more state-of-the-art gas-fired plants constructed, which they say will operate to 2050 and beyond. The gas companies, which now advertise their product as “green energy,” are naturally all in favor of replacing nuclear, coal, and oil with their product as fast as possible. Gas-fired electricity, they argue, will also be essential to producing hydrogen, which will power fuel-celled vehicles and produce synthetic fuels as well as store electricity.

Economists, however, point out that as higher carbon pricing boosts the surcharge on carbon dioxide to new highs, natural gas will price itself out of the market. “Gas looks like the easiest answer,” said Toby Couture, director of E3 Analytics, an independent renewable energy consultancy in Berlin. “But in the near future, gas is increasingly likely to be outpriced. The question is: Can other technologies and approaches balance more cheaply? And the answer is yes.”

Experts like Couture say demand management has enormous, thus far mostly untapped, potential. Through price incentives, massive quantities of power demand can be shifted from, for example, daytime peaks to night hours when demand is almost none. The state-financed German Energy Agency argues that management of electricity demand can be accomplished through “the targeted switching off and on of loads according to market signals. This can be done … in mills, furnaces, or pumps.”

“In short,” Couture said, “what we need to do is flip the previous paradigm on its head used to build power plants to meet demand. Now we need to intentionally shape our electricity demand so that it is better adapted to our supply: variable, renewable, and abundant.”

Storage is the obvious go-to option. Utility-size batteries can give back in the dark the surplus they collect during the day—and tank up on super blustery days so upsurges don’t crash the system or cost grid operators. Other, non-battery means of storage, such as hydrogen, seawater, and aluminum storage, are currently advanced enough to pitch in. “Even when the excess electrons aren’t enough to crash the system, they have to go somewhere. Now, absurdly, power stations are shut down or other countries actually paid to take this electricity off Germany’s hands,” said Gretchen Bakke, author of The Grid: The Fraying Wires Between Americans and Our Energy Future.

Battery technology has advanced vastly in recent years and already contributes to the short-term reliability of Germany’s grid. California has gone further, though: Utility battery developers have actually undercut the prices of gas companies to provide back-up capacity to the state’s energy system. California energy authorities expect that storage coupled with deft energy management and renewables will replace natural gas and coal-fired generations across the American West.

Most importantly, according to climate experts, is the broad, rapid rollout of renewables—five to 10 times what Germany now has—including geothermal, bioenergy, hydroelectric, and wave/tide energy, all of which are less weather dependent than solar and wind. Until then, even environmental groups like Friends of the Earth and Greenpeace acknowledge that natural gas is going to be part of the solution—though exclusively as reserve capacity that may run just 5 or 10 percent of the time. “Gas will be like a fire brigade,” said grids expert Werner Neumann of Friends of the Earth. “There for when we need it and compensated accordingly.”

Cross-border trade in energy is another way to compensate for shortfalls. Policymakers in the European Union have sketched visions of a long-distance smart transmission network that would extend from the Arctic Circle to the Mediterranean Sea, capable of seamlessly balancing shortfalls and surpluses—eventually with 100 percent green energy. Trans-European energy grids will be linked to decentralized small-scale grids and plants, making the dream come true of an EU-wide energy market. Although the project is in motion and already helps shift power between Germany and Denmark, as well as France and the United Kingdom, it won’t cover all of Europe anytime soon. Paul Hockenos is a Berlin-based journalist. His recent book is Berlin Calling: A Story of Anarchy, Music, the Wall and the Birth of the New Berlin (The New Press).


Source: Foreign Policy

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