How does it work?
Air and fuel are injected on two different sides of a solid membrane creating an electrochemical potential. As the result, oxygen ions migrate through a solid oxide electrolyte from the cathode to the anode. At the anode, the fuel is oxidised – for instance hydrogen creating water- releasing electrons that travel through an external circuit, generating electrical current.
It comes as a plug-and-play power pack
Unique and optimized operating recipe
Protected by multiple patents applications
- Remote monitoring software
-
Scalable power :
50W to kW - Up to 60% efficiency
On-the-Go Energy Solution
Telecommunications
SECURITY & SURVEILLANCE
Leisure
OIL & GAS
Back-up power
- Continuous power supply for telecommunications equipment.
- Back-up power supply for telecommunications equipment
- Measurement systems
- Stationary surveillance
- Mobile surveillance
- 360° surveillance
- Continuous power supply for telecommunications equipment.
- Back-up power supply for telecommunications equipment
- Measurement systems
- Pipeline safety
- Injection pump
- SCADA systems
- Household
- Critical equipment
- Compensation in winter time when solar panels are no more sufficient
- Continuous power supply for telecommunications equipment.
- Back-up power supply for telecommunications equipment
- Measurement systems
> more information
> proposed solution
- Continuous power supply for telecommunications equipment.
- Back-up power supply for telecommunications equipment
- Measurement systems
> more information
> proposed solution
- Household
- Critical equipment
- Compensation in winter time when solar panels are no more sufficient
> proposed solution
- Pipeline safety
- Injection pump
- SCADA systems
> more information
> proposed solution
- Continuous power supply for telecommunications equipment.
- Back-up power supply for telecommunications equipment
- Measurement systems
> more information
> proposed solution
Projects and Use cases
Micro-Bio-CHP
This European project aims to create a nearly energy-independent multi-family building by generating its own electricity and heat.
The fuel cell produces electricity from gasified pellets, serving as a reliable backup power source for solar panels. The leftover product gas is combusted in a product gas burner to supply space heating and domestic hot water
GreenAlps
This European project aims to provide a cost-effective and reliable SOFC system in a monolithic design. Collaborating with the Technical University of Denmark (DTU) and Resolvent, the focus is on improving the core of the system in terms of reliability, efficiency, and thermomechanical stability.
Lilly
In collaboration with EMPA, the Swiss Federal Laboratories for Materials Testing and Research, and the Zurich University of Applied Sciences (ZHAW), this InnoSuisse project aims to miniaturize SOFCs for low power systems (<kW) and mobile applications by integrating fuel processing units, including gas reformer and post-combustion chamber, directly into the stack. The design generates sufficient heat within the systems to achieve autothermal operation, improving overall system efficiency without the need for additional heat sources.