With Tesla''s announcement of battery storage systems for households, storage for photovoltaics has become a major news item. Furthermore, one of the main questions about the energy transition is how the grid will be stabilized without central power plants. Craig Morris visited German battery firm Younicos and got an answer to this question.
Walk into Younicos'' test facility on the outskirts of Berlin, and you see a conference room intentionally designed to look like the bridge of Starship Enterprise on Star Trek (see image below). Inside, there is even a portrait of Lieutenant Uhura. Below the bridge, we see a miniature, but operating medium-voltage distribution station that the firm uses to test its battery systems. Here, the firm is testing a future technology: battery storage.
Unlike a lot of other battery storage firms in the renewable energy sector, Younicos focuses on large grid-attached storage, not small residential battery packs. "Our 1 MW unit is good for grids with at least 1,000 households," explains press spokesperson Philip Hiersemenzel. The company has made news for its island projects, such as in the Azores, but also for grid-stabilization services within Germany. But what does that mean?
First, it means that the company is not doing what most people think of when they hear "battery storage." The firm does not purchase electricity when prices are low and sell when prices are high (a process called "arbitrage"). Rather, it stores and dispatches electricity as an "ancillary service," meaning that the goal is to improve the quality of grid electricity.
A few years ago, German researchers at Fraunhofer ISE pointed out that the need for power storage is not directly related to the share of fluctuating wind + solar, but rather to the share of wind + solar in combination with must-run baseload plants – those that cannot switch off and on rapidly. What we need is therefore grid-attached storage, and the power stored would be a combination of renewable and conventional (essentially, whatever is in the grid lines at the time).
Get rid of inflexible baseload – exactly what Germany is doing with its nuclear phaseout – and you push back the need for power storage. But battery storage can nonetheless play a crucial role already.
For the midterm, battery storage will therefore primarily improve grid stability in Germany – at least to the extent that these storage systems are tailored to grid needs and not to the optimization of solar power consumption in households. Younicos is thus focusing on the market for ancillary grid services (frequency response), not arbitrage.
The third chart below is quite complex, and we could spend all day on it alone, but let''s focus on the blue line at the bottom. It represents the frequency. When it rises above 50 hertz, batteries begin storing power (purple area above the baseline). "The battery unit takes the greater frequency as a signal to start storing power," Hiersemenzel explains.
The result could be bad for the grid at times. Let''s assume you work in an office during the day, when your roof array at home produces most of its power. That electricity is then stored in your batteries. When you come home at night, you consume electricity from the batteries. But what if there is a lot of wind blowing in the evening, and the grid needs to dump some power off into storage? Your system will not react to the grid''s needs in that case – at least not under current German incentives.
In the swarm, Lichtblick therefore acts as an aggregator. German households do not receive price signals from the power exchange, but retail power providers like Lichtblick do. So the company reaches into your PV storage system and controls it based on price signals on the power exchange.
Small, distributed battery storage units could also react directly to hertz signals as well. Rural farming communities in Germany often have quite large arrays covering the giant roofs on barns, but power consumption can be low. The frequency on nearby low-voltage lines probably also fluctuates dangerously as a result, but consumption levels are so low that these lines are not closely monitored. Battery packs that react to hertz levels would greatly improve power quality in these areas. Too bad there is currently no incentive at all for such services.
You write “there is currently no incentive at all for such services”. So what is the business model of Younicos? How do they get revenue?And why do you need batteries for grid stabilization services? It is less investment to use demand response on loads such as motors with variable speed drives : If the frequency drops, motors of compressors of freezers or HVAC can slow down within split second reaction.
of rotating masses in conventional power plants. The grid needs reactions by the millisecond. Batteries do that best, such as the grid-attached ones made by Germany’s Younicos – a spin-off of the German
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