On average, solar panels designed for domestic use produce 250-400 watts, enough to power a household appliance like a refrigerator for an hour. To work out how much electricity a solar panel can produce in one day, you’ll need to multiply the wattage by the hours of sunlight.
The higher the wattage of each panel, the more electricity produced. By combining individual panels into a solar system, you can easily generate enough power to run your entire home.
In 2020, the average American home used 10,715 kilowatt-hours (kWh), or 893 kWh per month. If you want a solar system to power your entire home year-round, you’ll need to install a system that can supply all of these energy needs.
The actual output of each individual solar panel will also depend on a range of factors including your location, local weather conditions, plus the angle and direction that the panels have been installed.
To understand how much electricity a solar panel can produce, we first need to get comfortable with some units of power and energy.
If you’ve been reading about solar panels, you’ll have noticed some specific units being mentioned: watt (W) and kilowatt (kW), plus watt-hours (Wh) and kilowatt-hours (kWh). Watt and kilowatt are units of power, and indicate how much power a solar panel can provide; 1,000 watts (W) = 1 kilowatt (kW).
Watt-hour and kilowatt-hour are units of energy, and are used to show how much work (by work we mean running a light or an air conditioning unit) can be completed in one hour; 1,000 watt-hours (Wh) = 1 kilowatt-hour (kWh).
The maximum or peak amount of electricity that can be produced by a solar panel is defined by its wattage. Remember this is measured under standard test conditions (STC) of 77 degrees F, 1 kW of solar radiation per square meter, and no wind. You’ll rarely find these conditions in nature, so expect your solar panel’s output to be a little less than this peak rating provided by the manufacturer.
Once you know the wattage of your solar panel, you can use the following calculation to work out how much electricity your solar panel can produce in one day:
Solar panels watts x average hours of sunlight = daily watt-hours
This calculation relies on you knowing (or being able to estimate) the number of sunlight hours your panel receives. You can either estimate this or use a solar calculator like the National Renewable Energy Lab’s solar resource maps. Let’s look at some examples:
Your solar panel has a rating of 250 watts, and your home receives six hours of sunshine per day. Multiply 250 x 6, and we can calculate that this panel can produce 1,500 Wh, or 1.5 kWh of electricity per day.
On a cloudy day, solar panels will only generate between 10% and 25% of their normal output. For the same 250-watt panel with six hours of cloudy weather, you may only get 0.15-0.37 kWh of electricity per day.
Upgrade to a 400-watt panel, and with the same amount of sunshine, you would now get 2,400 Wh, or 2.4 kWh of electricity per day. On a cloudy day, the electricity generated may only be 0.24-0.6 kWh per day.
For reference, the average American home uses about 29 kWh per day. Install a solar power system with 20 panels of 250 watts each, and in the same six hours of sunshine, your system will generate 30 kWh, which is just enough to power the average home for one day.
In addition to the amount of sunlight received per day, there are other factors that affect the output of your solar panel or system.
Anything that builds up on the surface of your solar panel can affect the output. This can include dust, leaves, snow, or bird droppings. A clean solar panel can be 6.5% more efficient than a dirty and dusty panel.
Solar panels are most efficient when directed in a south-east to south-west direction, at an angle of 30-45 degrees. Systems at other directions and angles can still work, but your outputs will be decreased.
Solar panels are very sensitive to shade, including trees, or a building next door. Minimal shading in the morning or evening is fine, but significant shading throughout the middle part of the day will significantly impact the amount of electricity a panel can produce.
The amount of sunshine and cloud cover will affect the amount of energy a solar panel can produce.
Solar panels can produce electricity year-round, even on overcast days. Through summer, the days are longer which generates more output, but shorter days in winter mean your output will be lower over these months.
As solar panels age, their efficiency decreases at around 0.5% each year. The life cycle of the system is approximately 25 years before performance has decreased to the point a new system is needed.
The efficiency of solar panels is usually measured at 77 F, and temperatures above this can end up decreasing their efficiency. Solar panels can work well in cold weather, and can still generate power in snowy conditions, too.
One solar panel on its own isn’t going to create enough electricity to power your entire home, but a solar panel system can. To work out what size system you need, you’ll need to complete some basic calculations that we've covered in our article How Many Solar Panels Do You Need?
To fully power an average home using 11,000 kWh per year, a typical solar power system will need between 21-24 panels of 320 watts each. The exact number and wattage of panels, as well as the output they can produce, will depend on where you live and the setup of your specific system.
There are three main types of solar panels used for domestic systems:
The output of each type of panel will vary depending on the individual manufacturer, but will always be stated as a power rating in watts. The higher the watts, the higher the output. You may also see a kilowatt peak rating, which is the maximum power the panel can produce under the standard test conditions mentioned earlier.
The solar market is very cost competitive, but some brands will offer you a more efficient system for a slightly higher investment. These systems will generate more electricity over the life of the system, so in the long run, they will create more value with consistent increased output.
Remember to look into federal tax credits and other incentives designed to reduce the cost of solar panel installation.
Given your house gets about six hours of daily sunshine, a standard 250-watt solar panel would produce 1.5 kWh of energy in a day.
You would need about 20 250-watt solar panels to generate the amount of energy the average American home uses in a day.
You can increase solar panel efficiency by cleaning the dirt off your panels regularly, pruning any trees that could be shading the panels, optimizing the panels' angle (ideally to a 30- to 45-degree angle facing south), or installing an automatic solar tracker that rotates the panel to keep it aligned with the sun.
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"How Much Electricity Does an American Home Use?" U.S. Energy Information Administration, 2020.
"Do Solar Panels Work at Night or on Cloudy Days?" EnergySage.
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"Solar Panel Performance: How Much Does Roof Orientation and Angle Matter?" EnergySage.
Jordan, Dirk and Sarah Kurtz. "Overview of Field Experience—Degradation Rates and Lifetime." National Renewable Energy Laboratory, 2015.
Mow, Benjamin. "STAT FAQs Part 2: Lifetime of PV Panels." National Renewable Energy Laboratory, 2018.
"How Hot Do Solar Panels Get? Effect of Temperature on Solar Panel Performance." EnergySage.
Belyakov, Nikolay. "Chapter Seventeen—Solar Energy." Sustainable Power Generation: Current Status, Future Challenges, and Perspectives." 2019, pp. 417-438., doi:10.1016/B978-0-12-817012-0.00031-1
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