Solid oxide electrolyzer integrated with ultra-low Pt catalysts proton exchange membrane fuel cells
The use of high-efficiency solid oxide electrolysis cell to produce hydrogen and the use of proton exchange membrane fuel cells with ultra-low platinum catalysts for gas to power conversion enables the application of hydrogen energy technology from the source to the back end, thereby reduces the overall system cost of high efficiency system. Further reaches the power generation with net zero carbon emission targets.
1.Heat pump combined with desiccant for dehumidification & 2.Smart defrost control method & 3.Design of AIoT EMCS communication system & 4.System and Method for a Non-Intrusive Refrigerant Leakage Detection and Adaptive Method for Threshold Thereof
High performance proton exchange membrane fuel cell based on laser processed alloy catalyst technique and metal foam flow field bipolar plate with built-in water-cooling design
AirBox space-time resolution improvement technology combined with the signal analysis method for air pollution diffusion mechanism extraction
Application of innovative electrolyzed catalytic and nanobubble system for the remediation of petroleum-hydrocarbon contaminated soils and groundwater
Technology maturity:Experiment stage
Exhibiting purpose:Display of scientific results
Trading preferences:Negotiate by self
Coming soon!