The patent outlines a characteristic curve compensation control method and system for hydrogen fuel cells. At its core, this technology focuses on fine-tuning the power output of hydrogen fuel cells to align with real-time demands.
Key elements involve:
1. Acquiring the power demand of a hydrogen fuel cell system.
2. Confirming a control signal.
3. Adjusting and controlling the system based on this control signal.
The system uses a preset characteristic curve that matches the estimated output current with the demanded power. The system can adjust the characteristic curve accordingly by continuously measuring the actual output current and comparing it with the estimated output. This automatic adjustment ensures that the relationship between the output current and voltage of the fuel cells remains consistent with the characteristic curve.
Potential Applications
This patented methodology has broad applicability across various hydrogen fuel cell systems, making it suitable for diverse scenarios ranging from automotive applications to stationary power generation. It promises increased efficiency and reliability by dynamically adjusting output to match real-world operating conditions. This is critical in applications like electric vehicles or backup power systems where demand can be highly variable.
Technical Specifications and Methodologies
The patented technology relies on a combination of several technical aspects:
– A preset characteristic curve that aligns estimated output current with power demand.
– Continuous real-time monitoring of the actual output current.
– Dynamic adjustment of the characteristic curve based on discrepancies between estimated and actual outputs.
– Ensuring the output current-voltage relationship of the voltaic pile adheres strictly to the characteristic curve.
These features collectively enable the system to automatically adjust both the current and the voltage, effectively catering to different application scenarios.
Key Takeaways
The patented characteristic curve compensation control method and system for hydrogen fuel cells by Shanghai H-Rise New Energy Technology Co., Ltd. represents a notable advancement in fuel cell technology. Focusing on real-time adjustments and compensations promises enhanced efficiency and reliability, making hydrogen fuel cells more viable for various applications. As hydrogen technology continues to evolve, such innovations are crucial for sustaining its growth and adoption in the energy market.