The pioneering MultiPLHY project demonstrating renewable hydrogen production has reached a key milestone, Neste announced Oct. 6.  

The consortium partners have successfully started up the world’s largest multimegawatt high-temperature electrolyzer (HTE) in an industrial environment at Neste’s renewable products refinery in Rotterdam, the Netherlands.  

The pilot project demonstrates the viability of renewable hydrogen in reducing the use of fossil hydrogen in the refining industry.  

Replacing hydrogen produced from fossil raw materials with renewable hydrogen is one of the key means to lower greenhouse-gas emissions in refining.  

As a next step in the demonstration project, a test program will validate the technology’s performance characteristics. 

MultiPLHY is a demonstration project with consortium partners Neste, Sunfire, CEA and ENGIE.  

The high-temperature electrolyzer is provided by the German electrolyzer manufacturer Sunfire and the hydrogen-processing unit (HPU) by SMS group.  

Neste is responsible for the refinery integration and together with Sunfire oversees the operation of the unit.  

The research and technology organization CEA coordinates the project, and ENGIE is in charge of technoeconomic assessment.  

“The MultiPLHY project has given Neste valuable insights and experience in integrating industrial-scale renewable hydrogen production into our refinery,” said Jukka Kanerva, the senior vice president of renewable refining at Neste. “We remain committed to exploring different pathways to replace fossil-based hydrogen in our refining processes to reduce greenhouse-gas emissions in our own operations. This demonstration project also shows the importance of cooperation across the whole value chain.”  

The electrolyzer integrated into Neste’s refinery processes is based on solid oxide electrolysis cell (SOEC) technology by Sunfire.  

The high-temperature electrolyzer (2.6 megawatts) consists of 12 electrolysis modules, operating at high temperatures of 850 degrees Celsius to produce more than 60 kilograms of renewable hydrogen per hour.  

Due to the utilization of heat, the high-temperature electrolyzer requires significantly less electricity to produce renewable hydrogen compared to other solutions on the market, according to Neste. 

“Thanks to their unrivaled efficiency, our high-temperature SOEC electrolyzers will be the preferred solution in many applications where waste heat is available,” said Nils Aldag, CEO of Sunfire. “The MultiPLHY project demonstrates that the innovative technology can be integrated into industrial environments at a large scale. We are proud of this big milestone.”