GRANKIA Electric (GUANGDONG) Co., Ltd.

GLR10051 rechargeable rack mounted 100ah lifepo4 battery

GRANKIA GLR10051 rechargeable rack mounted 100ah lifepo4 battery offers a high energy density, allowing for more energy storage in a compact form factor.

This 100ah lifepo4 battery offers stable and reliable performance, delivering consistent power output for your equipment and devices.

This battery has a nominal voltage of 51.2V and a capacity of 100Ah. It is engineered to provide reliable, efficient, and long-lasting power. Its applications include renewable energy systems, telecommunications, and backup power solutions.

GLR10051 rechargeable rack mounted 100ah lifepo4 battery

51.2V 100AH LiFePO4 Battery Features

High Capacity and Efficiency

The rack-mounted 100Ah LiFePO4 battery delivers a substantial amount of energy to support critical operations. Its high discharge rate ensures effective handling of peak loads. This makes it suitable for both continuous and intermittent power demands.

Long Cycle Life

This battery boasts an impressive cycle life of up to 6,000 cycles at 80% Depth of Discharge (DoD), ensuring long-term durability and consistent performance.

Rack-Mounted Design

Designed for easy installation, the lithium ion battery rechargeable features a compact rack-mounted form factor. This design allows for efficient use of space in server rooms, data centers, and other environments where space is at a premium, while also providing easy access for maintenance and monitoring.

LiFePO4 Technology

Utilizing advanced LiFePO4 chemistry, the lifepo4 battery offers several advantages over traditional lithium-ion batteries, including enhanced thermal stability, improved safety, and a longer cycle life. This technology ensures that the battery can withstand high temperatures and provides a reliable power source over many charge and discharge cycles.

Built-in BMS

The built-in Battery Management System (BMS) provides comprehensive protection against overvoltage, overcurrent, and temperature fluctuations, enhancing overall safety and reliability.

Environmentally Friendly

As a lithium battery, the lithium polymer battery is more environmentally friendly than traditional lead-acid batteries. It is free from harmful substances and can be recycled, contributing to a greener planet.

Fast Charging Capability

Capable of accepting higher charging currents than conventional batteries, the lithium ion battery rechargeable can be recharged faster, reducing downtime and increasing operational efficiency.

LiFePO4 Battery Details

 

Applications

Renewable Energy Storage

Ideal for solar and wind energy systems, providing reliable energy storage for off-grid and grid-tied applications.

Uninterruptible Power Supply (UPS)

Ensures continuous power supply during outages, protecting sensitive equipment in data centers and telecommunications.

Off-Grid Applications

Ideal for off-grid homes, cabins, and remote facilities, the lithium battery provides a consistent power supply without relying on the grid.

Telecommunications

Provides backup power for telecom equipment, ensuring uninterrupted service and communication.

Industrial Equipment

Powers various industrial applications, including robotics and automation systems, where reliable energy is crucial.

Home Energy Storage Systems

Supports residential energy management systems, allowing homeowners to store energy from renewable sources for later use.

 

How to Insall Lithium Battery Pack

Installing the 51.2V Rechargeable Rack Mounted LiFePO4 Battery involves several steps to ensure proper setup and operation. Here is a general guide on how to install the battery:

Select Installation Location

Choose a suitable location for installing the battery rack. Ensure that the area is well-ventilated, free from moisture, dust, and direct sunlight. Consider accessibility for maintenance and safety precautions.

Mounting the Battery Rack

Securely mount the battery rack in the chosen location using appropriate mounting hardware. Ensure that the rack is level and stable to support the weight of the batteries.

Connect Interconnecting Cables

Connect the interconnecting cables between the batteries in the rack following the manufacturer’s guidelines. Ensure proper polarity and tight connections to prevent loose or short circuits.

Connect to Charging/Discharging Equipment

Connect the battery rack to the charging and discharging equipment following the specified wiring diagram provided by the manufacturer. This may involve connecting to inverters, charge controllers, or other energy management systems.

Check for Proper Voltage

Before powering up the system, use a multimeter to verify that the voltage at the terminals matches the expected 51.2V.

Test the Installation

After completing the connections, test the installation to ensure that the batteries are charging and discharging correctly. Monitor the voltage levels and check for any abnormal behavior.

Power Up the System

Once all connections are verified, power up your system. Monitor the battery for any unusual sounds or heat during the initial charge cycle.

Regular Maintenance

Establish a routine maintenance schedule to monitor the performance of the battery system, check for signs of wear or damage, and ensure optimal operation over time.

 

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