Grid Connected Battery Energy Storage system
Grid Connected Battery Energy Storage system makes for the generation of real-time data logs which can be stored and accessed via software applications or through a net connection. These data loggers can detect when the batteries are fully discharged and may also detect when the batteries are about to achieve their maximum capacity. Based on the collected data, an individual can set the parameters of the discharge for the batteries according to the performance level which can be derived from the info logger.
The Grid Connected Battery Energy Storage system functions by employing a bidirectional inverter or in some instances, it functions by utilizing a sequential inverter. A bidirectional inverter works best along with a Sequential Control System because the energy requirements for the power storage system are much lower. With the assistance of the Sequential Control System or the bidirectional inverter, the energy usage for the power storage system may be controlled to ensure that power consumption may be minimized while enabling the batteries to work efficiently. The ability requirements for the grid connected battery energy storage system are really low, just about 0.5 volts to charge that must store the battery's full capacity. On the contrary, the sequential inverter requires a higher level of voltage to charge the battery to its full capacity. The sequential inverter may also prevent overcharging of the battery and this will assist in extending its life.
There are different types of batteries that can be used in the grid-tie energy storage systems and these generally include the Lead Acid Flooded Cells, the Nickel Cadmium (NiCd) Batteries, and the Lithium Polymer Batteries. Lead-acid flooded cells are utilized in the installing of the grid connected battery energy storage systems as they provide high voltage output. The NiCd batteries have a low voltage output and tend to be more ideal for remote sites. Lithium-ion batteries usually are used when there is an overproduction of the lithium ions in distribution grids. Thus, the customer can decide among those two forms of batteries depending on the site requirements.
There are two forms of batteries employed for Grid Connected Battery Energy Storage the very first is a DC battery which is normally equipped with a terminal block and makes for the quick and easy connection and disconnection of its power source at the principal side. On the other hand, there are also the ones that are designed for a greater capacity discharge like a Lead Acid battery or a Capacitor battery. These include a higher level of acid and allow for a high voltage discharge along with fast charge times. While both can work well, they differ in the fast charge time and the total capacity of these discharges.
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