TECO 2030 is pleased to show the progress that has happened through the 3-years of development of its heavy-duty and marine 400kW fuel cell module, the FCM400.
The FCM400 is the world’s most compact and efficient inherently safe marine fuel cell system. The FCM400 possesses built-in gas safety features, making it an ideal choice for seamless integration on board a ship to enable zero-emission energy generation.
“We are getting ready to show our hydrogen fuel cell system to the world, and delivery zero-emission solutions to our clients with the most sophisticated fuel cell system available for marine and heavy-duty applications. A fuel cell generates electricity by combining hydrogen and oxygen, producing water and releasing energy in the form of electricity in the process, without combustion. This means that marine vessels and other heavy-duty applications can operate completely emissions free,” says Tore Enger, Group CEO TECO 2030.
TECO 2030’s world-class fuel cell system is a technologically advanced clean energy generation system. The attributes of the modular 400kW fuel cell system includes industry leading energy efficiency, inherent safety concept, leading dimensions and component design, lifetime, and rapid dynamic load response.
Safety is always the key priority. TECO 2030’s fuel cell system has been developed along with an inherent safety concept, this means that the design and operation of fuel cells minimize consequence of potential hazards. This includes a separate and independent safety system, venting arrangement, certified and field proven components, and robust containment systems.
The FCM400 system has the lowest footprint on the market when calculating power output per unit volume, meaning that there is no other supplier of similar energy density for marine and heavy-duty applications. Real estate onboard a ship or similar sites is limited so the importance of energy density is key to many of TECO 2030’s clients and partners. The FCM400 has a dynamic load which relates to the ability of the fuel cell to rapidly respond to changes in power demand, which is important for mobility and grid applications were power requirements can change swiftly.
Source: TECO 2030