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Details Of Energy Storage Battery Parameters

2024-03-25

Batteries are one of the most important parts of energy storage systems. With the reduction of battery costs and the improvement of battery energy density, safety and lifespan, energy storage has also ushered in large-scale applications. This article will help you understand the advantages of energy storage batteries. several important parameters.

1.Battery capacity

Battery capacity is one of the important performance indicators for measuring battery performance. The capacity of a battery is divided into rated capacity and actual capacity. Under certain conditions (discharge rate, temperature, termination voltage, etc.), the amount of electricity released by the battery is called rated capacity (or Nominal capacity). Common units of capacity are mAh and Ah, 1Ah=1000mAh. Taking a 48V, 200Ah battery as an example, the battery capacity is 48V×200Ah=9600Wh, which is 9.6 kilowatt hours.

2. Battery discharge C rate

C is used to indicate the battery charge and discharge capacity rate. Charge and discharge rate = charge and discharge current/rated capacity. For example: when a battery with a rated capacity of 100Ah is discharged at 50A, its discharge rate is 0.5C. 1C, 2C, and 0.5C are battery discharge rates, which are a measure of discharge speed. If the used capacity is discharged in 1 hour, it is called 1C discharge; if it is discharged in 2 hours, it is called 1/2=0.5C discharge. Generally, the capacity of the battery can be detected through different discharge currents. For a 24Ah battery, the 1C discharge current is 24A and the 0.5C discharge current is 12A. The larger the discharge current. The discharge time is also shorter.

3. DOD (Depth of Discharge)

Depth of Discharge (DOD) is used to measure the percentage between battery discharge and battery rated capacity. For the same battery, the set DOD depth is inversely proportional to the battery cycle life. The deeper the discharge depth, the shorter the battery cycle life. Therefore, it is important to balance the required runtime of the battery with the need to extend battery cycle life.

If the SOC change of the battery from completely empty to fully charged is recorded as 0~100%, then in practical applications, it is best to make each battery work in the range of 10%~90%, and it is possible to operate below 10%. It will be over-discharged and some irreversible chemical reactions will occur, which will affect the battery life.

4. SOH (State of Health)

SOH (State of Health) indicates the current battery's ability to store electrical energy relative to a new battery. It refers to the ratio of the current battery's full-charge energy to the new battery's full-charge energy. The current definition of SOH is mainly reflected in several aspects such as capacity, electricity, internal resistance, cycle times and peak power. Energy and capacity are the most widely used.

Generally, when the battery capacity (SOH) drops to about 70% to 80%, it can be considered to have reached EOL (end of battery life). SOH is an indicator that describes the current health status of the battery, while EOL indicates that the battery has reached the end of life. Needs to be replaced. By monitoring the SOH value, the time for the battery to reach EOL can be predicted and corresponding maintenance and management can be performed.

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