Features

Simple Setup

Security and Dependability

Effortless Handling and Upkeep
Application Scenario
- Residential Solar Energy Storage:
Homeowners with solar panels can use the LFPWall 10k battery in conjunction with single-phase hybrid inverters to store excess solar energy during the day and utilize it at night, maximizing self-consumption and reducing grid dependence. - Emergency Backup for Homes:
Integrated with a single-phase hybrid inverter, the battery can provide essential backup power during grid outages, ensuring continuous operation of critical appliances and maintaining comfort and safety. - Load Management and Peak Shaving:
The battery, coupled with on-grid hybrid inverters, can help homeowners manage peak demand periods by using stored energy to reduce the load on the grid, potentially lowering electricity costs. - Remote Off-Grid Homes:
When paired with off-grid power conversion systems, the LFPWall 10k battery can supply reliable and sustainable energy to remote homes, cabins, or vacation properties without access to the grid. - Microgrids and Community Energy Sharing:
In community setups or microgrids, integrating the battery with hybrid inverters allows for localized energy distribution, enabling residents to share stored energy and enhance energy resilience. - Commercial Businesses:
Single-phase hybrid inverters combined with the battery can support businesses in demand charge management, load balancing, and providing backup power to essential equipment. - Small-Scale Industrial Applications:
In industrial settings, the battery can assist in mitigating energy demand spikes, optimizing energy use, and offering power backup to critical machinery. - Solar Charging for Electric Vehicles:
The battery, linked with compatible inverters, can charge electric vehicles using stored solar energy, reducing the load on the grid and promoting sustainable transportation. - Energy Storage for Educational Institutions:
Schools and universities can utilize the LFPWall 10k battery with hybrid inverters to ensure consistent energy supply, critical for IT infrastructure and educational facilities.
Agricultural and Remote Infrastructure: The battery, when integrated with off-grid PCS, can power agricultural operations, remote monitoring systems, and other critical infrastructure in remote or rural areas. - Residential Energy Efficiency:
On-grid hybrid inverters, along with the battery system, can help homeowners manage and reduce energy consumption by utilizing stored energy during peak demand times. - Green Building Integration:
The battery, integrated with compatible inverters, can be part of sustainable building designs to meet energy efficiency and eco-friendly standards. - Energy Storage for Healthcare Facilities:
Hospitals and clinics can benefit from the battery’s backup power capabilities when combined with hybrid inverters, ensuring uninterrupted healthcare services. - Renewable Energy Research:
Research institutions can use the battery in combination with hybrid inverters to study renewable energy integration, grid management, and energy storage technologies.
Product Advantage
- Advanced LiFePO4 Technology:
The use of Lithium Iron Phosphate (LiFePO4) chemistry provides enhanced safety, longer cycle life, and better thermal stability compared to some other lithium-ion battery chemistries. - High Energy Density:
LiFePO4 batteries offer a high energy density, meaning they can store a significant amount of energy in a relatively compact size, making them suitable for residential installations where space may be limited. - Long Cycle Life:
LiFePO4 batteries are known for their longevity, with the ability to withstand a large number of charge and discharge cycles without significant degradation. This leads to a longer overall lifespan for the battery system. - Parallel Connection Capability:
The ability to connect multiple LFPWall 10k batteries in parallel allows for increased capacity without complex modifications, providing a scalable solution for changing energy needs. - Versatility in System Design:
Compatibility with most single-phase hybrid inverters, off-grid PCS, and on-grid hybrid inverters offers flexibility in system design and integration, allowing users to tailor the setup to their specific requirements. - Energy Efficiency:
The battery system’s design and LiFePO4 chemistry contribute to efficient energy storage and discharge, minimizing energy wastage and optimizing overall system efficiency. - Support for Renewable Integration:
By storing excess energy generated from renewable sources like solar panels, the battery system encourages the use of clean energy and reduces reliance on fossil fuels.
- Scalability:
The parallel connection capability and compatibility with various inverters allow for easy expansion of the system’s capacity as energy needs grow over time. - User-Friendly Operation:
The battery system can be seamlessly integrated with various energy management systems, allowing users to monitor and control energy usage with ease. - Sustainable Energy Management:
The battery system promotes sustainable energy management practices by optimizing energy use, reducing wastage, and contributing to a greener energy future. - Resilience and Reliability:
The battery system enhances energy resilience by providing backup power and stability in case of grid disruptions. - Customization Options:
The support for OEM and ODM battery customization highlights the battery system’s adaptability to diverse energy requirements. - Smart Grid Interaction:
Depending on the inverter used, the battery system can participate in demand response programs and interact with smart grid systems, optimizing grid stability and efficiency. - Emergency Backup Power:
The battery can provide essential backup power during grid outages, ensuring that critical appliances and devices remain operational. - Load Shifting and Time-of-Use Optimization:
Users can store excess energy during off-peak hours and discharge it during peak hours, effectively managing energy consumption and potentially reducing energy costs.
Product Specification
Capacity Energy |
10.24kWh |
---|---|
Capacity Ah |
200Ah |
Suggested SOC |
10-100% |
Usable Capacity |
9.2kWh |
Nominal Voltage |
51.2V |
Operation Voltage |
44.8V-57.6V |
Maximum Charging/ Discharging Current |
150A/200A per Pack |
BMS |
Robust Multi point monitoring BMS pre installed |
Scalable (Parallel function) |
Yes, maximum 15 packs |
Life Cycling (0.5C 25°C) |
6000 cycles @ 0.5℃ |
Warranty BTT |
100MWh,5 years, whichever comes sooner |
Operation Temperature |
Chrage:0~45℃, Dischrage :-20~45 ℃ |
Storage Temperature |
-20 ~45 ℃ |
Net Weight |
92kG |
Dimensions (HxWxD) |
680x580x200 mm |
Certifications |
MSDS, UN38.3, CE, IEC62619 (Cell), UL(Cell) |
IP Grade |
IP54 |
Communication |
RS232, RS485, CAN (Compitable with most brand inverters in market) |