Workshop Power Challenges
The industrial workshop runs a variety of machinery, leading to fluctuating power demands. Additionally, the cost of electricity during peak hours is a significant burden. The workshop aims to optimize its energy usage and reduce electricity bills.
Battery Installation
Multiple EVE 230AH 3.2V batteries were installed in a dedicated storage area within the workshop. They were connected to a smart energy management system that monitors power consumption and generation from on - site solar panels.
Performance Evaluation
Sufficient Capacity: The 230AH capacity allows the workshop to store enough energy to power critical machinery during peak - rate hours or short - term power outages. For instance, during a recent power grid instability, the batteries provided power for over 4 hours, preventing production halts.
Good Cycle Life: With a cycle life of ≥4000 times, the batteries have withstood the regular charge - discharge cycles in the workshop environment. Over the past two years, the capacity degradation has been negligible, ensuring long - term reliability.
Low Internal Resistance: The internal resistance of ≤0.3mΩ enables efficient energy transfer. The batteries can quickly charge when there is excess solar energy and discharge steadily to meet the machinery's power needs, reducing overall energy consumption.
Cost and Operational Benefits
The 5 - year warranty gives the workshop owners peace of mind. By using the battery storage system, the workshop has reduced its electricity bills by shifting power consumption from peak to off - peak hours. The integration of solar energy with the battery system has also increased the workshop's sustainability.
