Science, asked by krishdevank, 9 months ago

A Battery has an energy of 1 kWh
and
It has a DOD of 80 % what
Is the useful
enerary of the batter​

Answers

Answered by thakuradityakumar138
0

Answer:

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Answered by Anonymous
0

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Answer:

Battery Usage

Explanation:

Battery storage technology is typically around 80% to more than 90% efficient for newer lithium ion devices such as the Tesla Powerwall. Battery systems connected to large solid-state converters have been used to stabilize power distribution networks.

Step 1: Reduce electrical demand

Sizing a system without reducing demand is like heating a home in the winter while leaving the front door open. It may be possible, but it isn’t efficient or affordable. By lowering your power needs, you can install smaller batteries and fewer solar panels.

First, tackle low-hanging fruit. Swap out incandescent lighting and power-guzzling appliances and electronics for ENERGY STAR models. Eliminate vampire loads with switchable or smart power strips. Set programmable and smart thermostats lower in winter and higher in summer.

Next, perform an energy audit to identify areas to improve your building’s efficiency. An important task is to seal and insulate. In North America, nearly half of household energy is used to heat and cool spaces. Reducing air infiltration and insulating attics, basements and walls minimizes thermal losses — and slashes energy consumption. Replacing low-insulation doors and windows can also make a big difference.

Step 2: Observe power draw and calculate amp-hour requirements

Battery sizing is a balancing act. You’ll want ample electrical reserves for nighttime power, power outages (if grid-tied) and days with low solar production.

To calculate your battery needs, you’ll need to determine how many kilowatt-hours (kWh) you need to store. For grid-tied systems, refer to the last 12 months of utility bills to estimate power requirements. Off-grid users can monitor appliance energy consumption with inexpensive plug-in power meters. For full-home monitoring, consider a submeter, advanced inverter or sensor-based system (examples: Efergy and Sense).

Battery manufacturers and distributors often have online calculators to help solar installers and customers simplify the calculation process, but in general the standard calculation for power requirements is: Watts = Amps x Volts

For example, if you require 1,000 watt-hours (1 kWh) a day and select a 12-volt battery bank, you’ll need 84 amp-hours of storage. In this example, the battery would be discharged 100% during every cycle, because there would be 0% reserve power. Turn on just one more LED bulb, and you’d run out of power every day. That’s why you also need a safety buffer.

Step 3: Incorporate a safety buffer

Finally, consider upgrading your HVAC system. High-efficiency air conditioners and furnaces can cut electricity loads significantly.

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