Discount about what is inverter

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renjith v asked How much watts of current an inverter takes to charge its battery to run an electric appliance.?

How much current an inverter consumes to charge the battery to run a 100W home appliance for one hour. I would like to know is it economical to use inverters instead of electricity supplied by government, at peak times. To be precise, if an inverter works for 500 w equipments conteneously for 8 hours, the total output is 4 KW, whether the current required to charge the battery will be 4kw or more?

And got the following answer:

This is a 4 part question. Your Batteries: The german scientist Peukert had the same question. So he came up with an answer, and now we use this set of equations to determine the efficiency of batteries on the market today. Your common flooded battery is 40-60% efficient at high amperage rates. An AGM flooded lead acid battery is 80-90% efficient. Use this link to understand the equations, and the math involved. Your inverter: If the DC-AC inverter is a pure sine wave inverter, is probably 90% - 95% efficient. These are usually grid tie inverters, starting in the Thousands of dollar range. If the DC-AC inverter is a modified sine wave inverter, it is only 60% - 85% efficient, but available at places like Wal Mart. Your Charger: A battery charger reloads the power into the battery, or power tank for the inverter to use. The chargers today are usually 80-95% efficient again. As a battery approaches fully charged state, the efficiency drastically reduces. Then we multply it all: Charger x Battery x Inverter = total efficiency Assuming AGM batteries, grid inverter, and a good charger. 90% x 90% x 90% = 73% To push 8KW through a 73% efficient system, you need 127% of the power. 4KWH x 1.27 = 5.08KWH Conclusion, Batteries are the only electrical device that can actually store power. They are not as efficient as using the power directly from the generator or panel. However batteries can store and clean that power. Flipping power from AC to DC (battery Charging), storing the power (in the battery), and then converting power back from DC to AC (in the inverter) is a series of 3 steps. Each step has loss involved. This loss is reasonable if it serves a purpose. For instance this process insulates sensitive electronics like computers, scientific instruments, LCD Big screen televisions, and stereos from the inconsistencies in the power grid. By switching AC to DC you remove all spikes, sags, transients, and lags. When the inverter pushes the computer from the DC power, it is a perfect power source. For lag, sag, spike, and transient information click on this link. You have a battery backup for your laptop onboard. The battery backup for your desktop is in a little black box under your desk for the same reason. Another reasonable place for loss, applications where power can not go down. For instance, in a hospital or records room, the batteries allow the load to be powered when the power goes out. The batteries must have sufficient capacity to drive the load for an hour or so. This time frame is long enough for maintenance to turn on the generators and switch over. The generators power the load, and recharge the batteries for the ensuing switch back to grid power.

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