Based on a monthly power usage of 877 kilowatt-hours (kWh), the average American home requires between 20 and 24 solar panels to pay 100 percent of the cost. After the federal solar tax credit, installing that many solar panels would cost between $13,000 and $16,200.
However, your energy use is likely to differ from the national average, and the quantity of solar panels you require is determined by a variety of other factors, including the location of your property and the type of solar panels you select.
So, how do you calculate the number of solar panels you require? We’ve got your back!
Several factors influence how many solar panels you’ll need to satisfy all of your energy demands. A Solar Calculator is the simplest method to determine how many panels you’ll require. It handles all of the math for you by entering your address and expected monthly electricity cost so you can make an informed decision. If you want to conduct the calculations yourself, we’ve included a formula below to assist you.
The method we used to determine the number of solar panels you’ll need to power your house is based on three major factors: yearly energy consumption, panel wattage, and production ratios. What does that exactly mean? Here are our assumptions and how we calculated them:
Annual Electricity Consumption
The amount of energy and electricity you consume in your house over the course of a year is referred to as your annual power usage. This quantity, measured in kilowatt-hours (kWh), is impacted by the items in your home that utilize power as well as how frequently you use them. Electricity is used by refrigerators, air conditioners, small kitchen appliances, lights, chargers, and other devices.
According to the United States Energy Information Administration (EIA), the average American household uses 10,715 kWh of electricity per year, so we’ll use that number as the ideal solar panel system or solar array size, which would mean you could offset 100 percent of your electricity usage and utility bill with solar panels (in practice, it’s not quite that simple, but bear with us here). If you want a more precise figure depending on your own energy use, see-through once you have that number, enter it into the formula below.
Solar panel wattage
Panel wattage often referred to as the solar panel’s power rating is the electrical production of a certain solar panel under ideal conditions. Wattage is measured in watts (W), and most solar panels provide between 250 and 400 W of power. In these calculations, we’ll assume 340W as an average panel because most of the popular solar panels on the Marketplace are at least 340W.
The production ratio of a solar panel system is the ratio of the estimated energy output of a system over time (in kWh) to the actual system size (in W). These ratios are virtually never 1:1 — your production ratio will vary depending on how much sunshine your system receives (which is mostly determined by your geographic location). A 10 kW system that generates 14 kWh of power per year, for example, has a production ratio of 1.4 (14/10 = 1.4) — this is a completely realistic production ratio to observe in the real world. Production ratios in the United States are typically between 1.3 and 1.6, therefore we’ll take those two figures as the high and low estimations for our computation
Now, let’s do the math
We’ve established our three primary assumptions (energy usage, solar panel wattage, and production ratios). But how do those figures convert to an anticipated quantity of solar panels for your home? The formula is as follows:
Number of panels = system size / production ratio / panel wattage
Using the numbers given above, we get:
Number of panels = 10,715 kW / 1.3 or 1.6 / 340 W
…which provides us between 20 and 24 panels in a solar array, depending on the production ratio we select (20 for a 1.6 ratio, and 24 for a 1.3 ratio). So, 20 panels at 340 W each equal a total system size of around 6.8 kW!
Finally, efficiency and size must be considered.
After determining the size of your system, it’s useful to understand basic details about the solar panels themselves. If your solar panels are more efficient, you will probably need fewer of them, and your solar array will take up less area.
The quantity and size of solar panels may not be an issue for homeowners with a spacious roof and plenty of useable space. However, for households with limited space, it is critical to balance efficiency and size with what you have available or consider solar shingles or a ground-mounted system.
Solar installations typically require between 335 and 405 square feet of roof area. To get the amount of roof space required for your solar system, multiply the number of panels required by 17.55 square feet, which is the size of most residential solar panels offered today.
If you have a small roof, you may need to acquire high-efficiency panels or panels with a higher power output so you may install fewer panels while still meeting your energy demands.
The table below indicates how many solar panels you’ll need based on the size of your system, as well as an estimate of how much electricity the solar array will generate.
Figure 1. Depending on the system size, the number of panels and roof space required will vary.
|System size||Estimated monthly energy production||Number of panels*||Roof space required|
|4 kW||480 – 600 kWh||13||220 sq. feet|
|6 kW||720 – 900 kWh||19||330 sq. feet|
|8 kW||960 – 1,200 kWh||25||439 sq. feet|
|10 kW||1,200 – 1,500 kWh||32||549 sq. feet|
|12 kW||1,440 – 1,800 kWh||38||659 sq. feet|
|14 kW||1,680 – 2,100 kWh||44||768 sq. feet|
In addition to evaluating the number of solar panels required, you need to consider the weight of the panels themselves.
A single panel weighs roughly 40 pounds on average, adding around 2.8 pounds per square foot to a standard pitched roof and 5 pounds to a flat roof. As a result, you must ensure that your roof can withstand the extra weight. You should also evaluate your roof’s material, age, and construction.
According to the United States National Renewable Energy Laboratory, Energy Department, almost half of all residences cannot accommodate rooftop solar panels. Many homes, companies, and renters use community solar initiatives to go solar without ever putting anything on their rooftops. Participants can subscribe to a neighboring solar farm and pay less for the power generated by it.
Finally, the amount of solar panels you’ll need to achieve potential savings is dependent on your home’s energy use. Do you want to find out how much money you may save by putting solar panels in your home? Contact us by visiting our page or by calling 1-714-694-2262.