Mitsubishi Power Europe GmbH

Mitsubishi Power Receives Order for First Solid Oxide Fuel Cell in Europe: Highly efficient plant supplies electricity and heat – Flexible use with hydrogen

Share
DUISBURG (GERMANY), 28 October, 2020 - Mitsubishi Power has recently received an order to supply the first Solid Oxide Fuel Cell (SOFC) in Europe. The highly efficient hybrid system will be put into operation at the Gas- und Wärme-Institut Essen e.V. (GWI) in Essen by March 2022. Among other things, flexible operation of the Hybrid-SOFC and the proportional use of hydrogen as a fuel gas are to be researched under real conditions.

The system is part of the research project "KWK.NRW 4.0" and is funded by the state of North Rhine-Westphalia and the European Regional Development Fund (ERDF). The Solid Oxide Fuel Cell (Hybrid-SOFC) from Mitsubishi Power plays a central role in the project. The highly efficient system not only supplies electricity and heat but can also be used decentralized and independently of the existing power grid. Another key advantage of the Hybrid-SOFC: the system can be operated flexibly with various fuels - from natural gas to biogas and hydrogen.

This Hybrid-SOFC can theoretically supply electricity to a large office building, a hospital or about 300 houses with electricity and heat. In addition to natural gas, liquefied natural gas and biogas, it can also be operated with hydrogen, where the only emission is water and contribute to decarbonization of electricity. Mitsubishi Power already has installed 9 units of Hybrid-SOFC systems in Japan. The plant in Essen will be the first of its kind outside Japan.

Thanks to its compact dimensions, the Hybrid-SOFC can also be ideally integrated into a user’s existing power and heat supply system. At GWI, the start-up and shut-down procedure of the plant as well as the dynamic (partial load) operation will be demonstrated. "An energy system with a high proportion of renewable energies inevitably requires plants that can supply electricity and heat reliably, quickly and in an environmentally friendly manner when the sun is not shining and the wind is not blowing" says Professor Klaus Görner, scientific director of GWI. This kind of flexible and sustainable operation – especially with blending of hydrogen as fuel gas – will be comprehensively realized with the Hybrid-SOFC.

“We are delighted to bring the unique SOFC system to European market. It confirms the growing demand for clean energy sources where Mitsubishi Power has vast expertise”, adds Professor Emmanouil Kakaras, Head of the New Products Business Unit at Mitsubishi Power Europe. “Apart from SOFC, we are fully equipped with numerous state-of-the-art technologies and solutions which are contributing to a successful energy transition.” These include hydrogen-ready gas turbines, large-scale battery storage solutions, Power-to-X technologies, biomass conversion, and heat pump systems.

More information about the Hybrid-SOFC system:
https://power.mhi.com/products/sofc

Contacts

Hasan Guerpinar
Spokesperson
Mitsubishi Power Europe GmbH
h_guerpinar@eu.mhps.com
Tel. +49 203 8038-1661
Fax +49 203 8038-1809

About Mitsubishi Power Europe GmbH

Mitsubishi Power Europe GmbH
Mitsubishi Power Europe GmbH

Duisburg, Germany

Mitsubishi Power Europe GmbH is a market and technology leader in innovative and environmentally-friendly energy solutions. It offers a broad product portfolio, including world´s most efficient gas turbines, industrial boilers, and waste treatment. Mitsubishi Power Europe builds the path for a low-carbon society, offering hydrogen and battery storage solutions, biomass conversion, Power-to-X and a comprehensive one-stop service business.

The company is a subsidiary of Mitsubishi Power, Ltd. It is headquartered in Duisburg, Germany and employs around 670 staff.

Subscribe to releases from Mitsubishi Power Europe GmbH

Subscribe to all the latest releases from Mitsubishi Power Europe GmbH by registering your e-mail address below. You can unsubscribe at any time.

HiddenA line styled icon from Orion Icon Library.Eye