Solar Panel Power Output Equation

This calculator may come in handy when you buy solar panel s for your rv vehicle boat camper or home solar system and you want to get a real.

Solar panel power output equation.

First calculate the solar power arriving at the solar cell by multiplying the intensity of the sun by the area of the solar cell. Your battery ah rating is 250 x 6 1500 ah so it can be comfortably discharged at 150amp rate that s ok so the battery specs is fine. Solar power as a function of time in kwh or wh that your solar panel can produce taking into account its rated power and solar energy available at your place. This solar panel output calculator helps you estimate the real daily energy a k a.

Peak nominal power based on 1 kw m 2 radiation at stc. E a r h pr. The available solar radiation e ma varies depending on the time of the year and weather conditions. Use a ruler to measure the active area a of your solar cell see photo below.

For the sake of example if you are getting 5 hours of direct sunlight per day in a sunny state like california you can calculate your solar panel output this way. The stc measure the solar panel s energy output using common conditions of light exposure orientation and panel temperature. Nominal rated maximum kw p power out of a solar array of n modules each with maximum power of wp at stc is given by. Here s a simple formula for calculating your solar panel s power output.

For a 3 6kva load the inverter operating at 24v would require 3600 24 150 amps. The global formula to estimate the electricity generated in output of a photovoltaic system is. Under stc a 250 watt panel produces 250 watts of electricity when the sunlight or solar irradiance on the panel is 1000 watts per square meter and the panel is operating at 25 c. Solar panel watts x average hours of sunlight x 75 daily watt hours as an example let s say you have 250 watt solar panels and live in a place where you get 5 hours of sunlight per day.

7 53 kw x 1000 250 watt 30 12 panels so roughly 30 250 panels 30 x 250w 7500 watts 7 5 kw note. The solar intensity from the sun s i over a given area at the surface of the earth is approximately 1 000 watts m 2. Btw 5 5kwh m 2 day is excellent solar conditions. Anyway the answer will be 1 375wh panel day.

So a 7 53 kw system 7530 watts and a 250 watt panel 250 kw. E energy kwh a total solar panel area m2 r solar panel yield or efficiency h annual average solar radiation on tilted panels shadings not included. 250 5 5 1375wh day 1 375wh day. To get your average usage preferably add up your last 12 months usage and divide by 12.

However i would expect a 15 250wp panel to be 1 6m 2 and not 1m 2 as you say in the comment.