HydragenX offers a comprehensive array of safety services and solutions tailored to the adoption of hydrogen across various applications and locations. Our commitment to delivering premier safety solution systems installs confidence in our clients, particularly when confronted with extreme scenario simulations. We address critical situations, including system failures, fire hazards, explosions, and hydrogen leaks during power outages, while ensuring no interaction between the leaked hydrogen and external fires. This significantly minimizes risk and upholds established fire extinguishing protocols, reducing the necessary training time for operational crews. By implementing HydragenX solutions, clients can rest assured that hydrogen will not pose any danger.

Automated PLC hydrogen touch screen

Automated PLC hydrogen pro-active shutdown systems

With our off-the-shelf Automated PLC proactive shutdown system, you can monitor all your hydrogen safety systems, integrating all risks from environmental aspects under one system that is programmed and mapped to automatically react to multiple hazards with different systems to ensure timely reactions and full safety implemented with the minimum cost. The Adoption of HydreagenX systems allows our client to mitigate the risks and react with the right strategy in milliseconds to stop the butterfly effect of the hydrogen supply system failure or other subsystem. The systems are in life and can operate for up to one hour during a complete blackout, which gives enough time to purge the system and react to the power reasons. The PLC supports data transmission, which offers live logs for analyzing the main reasons for the automatic shutdown or the multilevel warnings. Our hydrogen PLC system is the best value for money in the market. It can be reprogrammed and updated, supporting multi-operation and zones to ensure full flexibility and maximum safety.

Dual Vacuum pipe isolation system installation

Ventilation is a good solution to minimize hydrogen fire risks. However, the best ventilation system does not reduce the hydrogen leakage risk. Also, when adopting an ATEX ventilation system, the cost and the modification needed could make the adoption of the ventilation system very difficult. The extra time required and the energy consumption during the hydrogen system operation make it an unreliable solution compared to the adoption of double vacuum piping. What our system offers:
1 -Faster hydrogen leakage detection. The system relies on pressure drop, unlike the conventional top cell mount H2 sensor, which needs calibration and is expensive. It also mitigates fire or explosion due to the interaction between the leakage hydrogen and the ignition sources before reaching the top-selling.
2-Full hydrogen isolation with an automated nitrogen purging system. At the leaked hydrogen events, the higher nitrogen pressure is automatically injected to drop the volume ratios of the leaked hydrogen below the flammability point even before discharging this gas mix through the safe vent.
3- Cost and Time effect. The system can be used in confined spaces and higher-risk environments without any issues, as it can confidently use hydrogen with flammable objects surrounding it.

Dual Vacuum pipe isolation system installation
Custom protection logic coding to adapt and react to the external environment hazards

Custom protection logic coding to adapt and react to the external environment hazards

Having multiple systems with the hydrogen adoption or integration?
HydragenX offers a comprehensive suite of integrated safety systems that enhance operational safety across various applications. These systems can seamlessly combine multiple safety protocols into a cohesive main shutdown strategy, ensuring rapid and effective response in critical situations. Additionally, they support implementing several sub-protection level operations, allowing for tailored safety measures that can be activated independently based on specific requirements. This flexibility ensures that organizations can maintain a high safety level while optimizing their processes' efficiency and reliability.