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Flexible Electrolysis Process

TRIMET Starts Trial Operation of its “Virtual Battery”

| Editor: Isabell Page

TRIMET Aluminium SE has started the trial operation of its "virtual battery". For the first time, the energy supply for aluminum production at the Essen plant in Germany can be flexibly controlled.

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120 electrolysis furnaces in the Essen aluminum smelter have commenced trial operation as a “virtual battery”.
120 electrolysis furnaces in the Essen aluminum smelter have commenced trial operation as a “virtual battery”.
( Source: Trimet Aluminium SE )

The result is a huge electricity storage facility that makes it easier to integrate discontinuously generated electricity from renewable energy sources into the power grid. A total of around 36 million euros was invested in the conversion.

“We have reinvented the electrolysis process for the production of aluminum. For the first time, we will be able to vary the energy supply during operation significantly. This will allow us to react to changes in the electricity supply, which will benefit the power supply to households in Essen,” says Philipp Schlüter, CEO of TRIMET. “As an aluminum producer, we are naturally an energy-intensive company. As such, however, we are also a valuable partner for the energy revolution,” Philipp Schlüter continues.

With the conversion of a total of 120 furnaces in hall one of the Essen plant, 25 % more or 25 % less electricity can be consumed for up to 48 hours without interrupting aluminium production. The energy requirement can also be reduced to zero for up to an hour, if necessary. This means up to 2,000 megawatt hours of electricity can be stored for use in the energy revolution. The “virtual battery” thus has the capacity of a medium-sized pumped storage facility.

Since its invention in 1886, the aluminum production process has been based on having a constant supply of energy. With its “virtual battery”, TRIMET is abandoning the traditional approach for the first time and is making the energy-intensive electrolysis process more flexible. To achieve such flexible control of the process, TRIMET and Bergische Universität Wuppertal (Bergische University Wuppertal) have developed a controllable heat exchanger that keeps the temperature in the furnace constant despite an unsteady energy supply.

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