Technical Integration: An 85.6kWh Menred ESS LiFePO4 System
For applications requiring substantial energy storage capacity and high power delivery, system design and component integration are paramount. This case study details the technical configuration of an 85.6kWh energy storage system that utilizes Menred LFP.1433.F battery modules and SRNE inverters, demonstrating a scalable approach to power management.
The core energy reserve is established with six Menred LFP.1433.F battery modules. Each module offers an energy capacity of 14.33kWh, leading to a total system energy capacity of approximately 85.6kWh. These modules utilize LiFePO4 (Lithium Iron Phosphate) chemistry, a choice based on its established safety characteristics and extended cycle life. The rated cycle life of these modules is over 6000 cycles at 0.5C and 25°C, a factor in assessing the system’s long-term operational viability.
For the conversion and management of this stored energy, three SRNE inverters are integrated into the system. The role of inverters is to convert the DC power from the batteries into AC power for utilization by electrical loads. The selection of multiple inverters in this configuration is a technical consideration that allows for load distribution, potential for higher aggregate peak power output, and the possibility of redundancy. This setup enables efficient management of fluctuating energy demands and distribution of power across various circuits.
This system demonstrates a method for constructing a high-capacity energy storage solution by combining specific battery module specifications with compatible inverter technology. It illustrates a technically driven approach to establishing substantial on-site power reserves through a consolidated Menred ESS configuration.
