EQS-News
Enapter AG receives largest single order from Europe to date for electrolyzer in the megawatt range
- Enapter AG receives largest single order from Europe for 3 MW electrolyzer
- Order also includes 1 MW electrolyzer for another company in Italy
- Contracts have upper seven-figure euro range, showcasing growing demand for green hydrogen
EQS-News: Enapter AG / Key word(s): Miscellaneous CORPORATE NEWS |
Enapter AG receives largest single order from Europe to date for electrolyzer in the megawatt range
- Enapter supplies 3 MW electrolyzer to CFFT SpA, Italy
- In addition, F.i.l.m.s SpA, also in Italy, has ordered 1 MW
- Total order volume for the 4 MW is in the upper seven-figure euro range
Berlin, 26 March 2024: Enapter AG (ISIN: DE000A255G02) has received further orders for its megawatt-class electrolyzer. Thanks to their multicore technology, these AEM electrolyzer are particularly suitable for the highly efficient production of green hydrogen from renewable energy sources on an industrial scale. As they do not use iridium, customers can plan their further expansion plans reliably and future-proof.
Enapter will supply 3 multicore-class units, each with 1 MW, to the logistics company CFFT SpA. Among other things, the company operates a harbour near Rome. There, the Enapter electrolyzers will be used in a hydrogen refueling system and operated with sustainably generated electricity. The order from CFFT is the largest single order from Europe in Enapter's history to date.
In addition, F.i.l.m.s SpA - also from Italy - has ordered an Enapter electrolyzer in the multicore-class with 1 MW. The metalworking company from the OMCD Group specializes in hard metal parts and uses conventional hydrogen in its production processes, which was previously bought in. With the Enapter electrolyzer, the company will be able to produce green hydrogen from renewable energy and feed it directly into its gas mix for the furnaces. F.i.l.m.s' medium-term goal is to gradually replace climate-damaging natural gas and switch to green hydrogen as completely as possible.