Views: 0 Author: Site Editor Publish Time: 2026-03-30 Origin: Site
Amid the global energy storage industry’s accelerated shift toward high power density, long service life and high safety, heat dissipation systems have become a core factor restricting the performance and reliability of energy storage systems. We have always been deeply committed to the field of fan technology, driven by continuous innovation, to deliver more competitive core heat dissipation solutions for customers, and support the high-quality development of the energy storage industry.
As a core product alliterative developed for medium and low-power energy storage scenarios, the second-generation 505mm axial fan has achieved an all-round performance upgrade based on the mature technologies of its first generation:
1.Cost Optimization
By streamlining the structure and integrating the supply chain, we have achieved more advantageous cost control while ensuring quality, delivering higher cost performance for customers.
2.Noise Reduction Upgrade
Adopting a brand-new aerodynamic design and vibration-damping technology, it effectively reduces airflow turbulence and mechanical vibration, delivering a notable improvement in operating noise. It is better suited for indoor energy storage scenarios with stringent requirements on silence.
3.Enhanced Protection
The overall protection level is fully upgraded to adapt to complex industrial environments such as high dust and high humidity, greatly extending the service life of the fan and reducing maintenance costs.
4.Performance Upgrade
Both airflow and static pressure efficiency are improved simultaneously, delivering stronger heat dissipation capacity. It can quickly remove heat from energy storage modules and ensure stable system operation under high-load conditions.
At present, this product has been successfully applied in multiple 25kW, 60kW and 80kW energy storage projects of customers. With stable and reliable performance, it has become the preferred heat dissipation solution for medium and low-power energy storage scenarios.
