Breakthrough in Technological Bottlenecks
Zinc-based flow batteries are prone to zinc dendrite formation during cycling, and traditional contact sensors face challenges such as dendrite
adhesion and measurement inaccuracies. Non-contact capacitive sensing technology achieves true "dendrite immunity" through external wall monitoring.
Solution Advantages
Zero-contact design: Completely avoids the impact of dendrite adhesion on sensor accuracy.
Real-time monitoring: Continuously monitors electrolyte volume changes, providing data support for optimizing charge and discharge strategies.
Early warning: Timely detection of dendrite growth trends through abnormal liquid level changes.
Performance Indicators
Dendrite Influence: Zero impact
Measurement Accuracy: ±1.5mm
Temperature Drift:<0.01%/℃
Medium Temperature: -10℃~60℃
Application Case
After adopting this solution in a large-scale zinc-based flow battery project:
Sensor lifespan increased by more than 3 times
System reliability significantly improved
Maintenance costs reduced by 40%
Conclusion
The non-contact monitoring solution provides a reliable liquid level monitoring solution for zinc-based flow batteries, strongly promoting the commercialization of this technology.
