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Reliable automation despite continuous load

For HYTRON, the equipment previously used in the PSA process required a high level of maintenance. Conventional ball valves with welded ends couldn’t withstand the extreme load conditions. This resulted in wear, leakages, and costly downtime. Each repair involved cutting, re-welding, and this led to production stops in a process designed for continuous operation. The goal was to have a system that could withstand these stresses, would need fewer interventions, and would still meet all explosion protection standards.

To replace the existing setup, we supplied angle seat valves with an operational lifetime of up to 10 million switching cycles and flanged connections that eliminate the need for cutting or welding during maintenance.

Pneumatic actuation is provided by an Ex-certified automation system with a valve terminal CPX/MPA which integrates communication, control, and monitoring components into a compact cabinet. This design provides precise control and consistent switching performance. The process now runs smoothly and reliably, even with hundreds of thousands of switching cycles per year.

Daniel Lopes, Director and Founder of HYTRON, standing indoors and smiling at the camera.

“Our hydrogen solutions, from electrolysis to ethanol reforming, demand partners with unquestionable reliability. By working with Festo, we not only ensure operational safety and excellence in pioneering projects, such as the world's first ethanol HRS, but we can also validate that this core industrial technology for the energy transition in Brazil meets a global standard."

Daniel Lopes
Director and Founder of HYTRON

Joint development with a look to the future

The engineering teams from Neuman & Esser and Festo worked together very closely to develop the solution. Each component of the explosion-proof design was tested, optimised, and validated for practical operation. The shortened development time and resulted in a solution that now serves as a reference for future PSA projects in hydrogen applications. Thanks to its modular architecture, the concept can easily be adapted to other systems and processes, thus providing a scalable basis for safe, digitally connected automation across the hydrogen value chain.