Hydrogen energy is a clean and flexible energyhttps://heiautomation.com/product/ carrier that has demonstrated great potential in industries, transportation, power generation and other fields, and is regarded as the cornerstone of the global energy transition. However, it should not be forgotten that only safe hydrogen can be the true future energy. The high molecular activity, small molecular size, easy leakage characteristics of hydrogen, along with its wide flammable range and invisible pale blue flame to the naked eye, all bring serious safety hazards to the application of hydrogen energy. Any small mistake may triggerhttps://heiautomation.com/ a chain disaster.
Functional safety and equipment safety
Functional safety is achieved through the IEC 61508/61511 system.
It requires sensors, logic controllers, and actuators to automatically https://www.facebook.com/profile.php?id=100087291657130shut down and relieve pressure within milliseconds upon detecting an abnormality.
Inert gas replacement is carried out to lock the dangerous energy within a controllable range.
This not only complies with regulatory and insurance mandatory requirements, but also reduces the loss from accident shutdowns, ensuring smooth project financing, operation, and insurance, and laying a “zero-accident” foundation for the large-scale commercialization of hydrogen energyhttps://www.youtube.com/@%E6%9B%BE%E6%85%A7%E5%A9%B7-z6j.
The hydrogen energy device is constantly exposed to high pressure, low temperature https://heiautomation.com/and high hydrogen content environments. Even a minor leak can instantly create an explosive atmosphere. If the key equipment such as the hydrogen refueling gun, compressor, and storage tank have material fatigue or sealing failure, it will not only cause fires but also lead to the diffusion of toxic gases, equipment scrapping and huge production downtime losses. Equipment safety is achieved through multiple hardware barriers such as online gas monitoring, explosion-proof electrical appliances, and overpressurehttps://heiautomation.com/contact-us/ interlocks, locking the danger inside the equipment. This protects the lives of on-site personnel and reduces the risks of accident shutdown and compensation. It is a prerequisite for hydrogen energy projects to obtain permits, financing and insurance.
Two swords in unison :PILZ x Drager
PILZhttps://www.youtube.com/@%E6%9B%BE%E6%85%A7%E5%A9%B7-z6j/shorts from Piezo is a leader in functional safety, specializing in providing users with safety-related solutions, offering certified control systems (such as SIL and PL compliance) to ensure the functional safety of industrial processes. Dragerhttps://studio.youtube.com/channel/UC5jh-_J8N51BACPDqMnnT6Q/videos/short?filter=%5B%5D&sort=%7B%22columnType%22%3A%22date%22%2C%22sortOrder%22%3A%22DESCENDING%22%7D is the champion of safety equipment, with extensive experience in gas detection, area monitoring, personal protective equipment, and specific safety strategies on-site, focusing on the prevention of dangerous situations and the protection of frontline personnel’s lives. Although functional safety and safety equipment have different focuses in terms of technology, they share the common goal of protecting people, assets, and the environment. The collaboration between PILZ and Drager achieves a seamless safety architecture through complementary advantages – from gas leakage detection to system shutdown, providing measurable protection at every stage of hydrogen equipmenthttps://heiautomation.com/contact-us/ operation, eliminating risks at their inception. For equipment operators, this means higher safety, better compliance, and lower operational risks.
