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Nov 20, 2023

How To Find the Best Angle for Solar Panels (June 2023)

A solar panel's angle or placement is a key factor in determining the energy output of your system. The sun's position in the sky is always changing, depending on the time of day and season, so it's important your panels are positioned correctly to maintain peak production.

In this article, we at the Guides Home Team will cover the importance of solar panel angles and break down the main factors to consider when positioning your panels.

Photovoltaic (PV) modules generate more electricity when their orientation and tilt angle maximizes the direct sunlight reaching the panel's surface. Monocrystalline solar panels with a high-efficiency rating achieve the highest electricity output per square foot.

However, inadequate placement will keep your panels from operating at peak performance. Solar panels of modest efficiency can often generate more electricity at an optimal tilt angle than top-tier solar panels facing the wrong direction. Several factors determine the optimal tilt angle for residential solar power systems:

Finding the best tilt for solar panels in any location is simple, thanks to the World Bank Global Solar Atlas. You can follow the steps below:

Visit the World Bank Global Solar Atlas website to get started.

Using the Global Solar Atlas world map, find the search bar and input your city name, address or coordinates. You can also drag the map around and zoom in on your exact location. When you click on your location, the Global Solar Atlas will display tables with detailed information about local solar resources.

Once you select a location, the Global Solar Atlas will display a table based on the map data. You want to look for the "optimum tilt angle for PV modules" value. You will notice that two angles are shown in this line:

For example, if the Atlas shows a value of 35° / 180° for your location, it means your solar panels should have a vertical tilt of 35° for maximum productivity, facing south (180°).

As mentioned above, the optimal tilt angle increases as you move farther north or south, which you can visualize with the Atlas. If you click on locations in Florida, you will notice the optimal tilt ranges from 24° to 28°. On the other hand, if you click on location in New York, the optimal tilt will range from around 33° to 37°. The optimal orientation is south in both cases (azimuth angle of 180°), since Florida and New York are in the northern hemisphere.

The Global Solar Atlas provides plenty of useful information beyond your optimal solar panel angle. You can also check the specific photovoltaic power output, which shows the annual productivity in kilowatt-hours (kWh) per kilowatt of peak solar panel capacity (kWp).

For example, if your location shows a specific photovoltaic power output of 1,500 kWh/kWp, this tells you that each solar system kilowatt will generate 1,500 kWh per year. In this case, an average 8 kW residential system will generate 12,000 kWh per year (8 kW x 1,500 kWh/kWp). You can then multiply this value by your local electricity tariff for a quick estimate of your annual energy savings, which can help offset the cost of your solar system.

The optimum tilt angle maximizes your year-round electricity production, assuming your solar panels are kept in the same position. However, you can achieve an even higher output by adjusting your solar panel tilt throughout the seasons. The following table summarizes how you can adjust the tilt angle of your solar panels to boost productivity during different times of the year:

The Global Solar Atlas will only display a general tilt angle that maximizes annual energy production, not the optimal tilt angle by month or season. However, the best solar installation companies use simulation software that is capable of generating more detailed information.

Solar panel arrays with an adjustable tilt angle are generally recommended for ground-mounted installations. This feature is also viable for solar systems installed on flat roofs that are easy to access. Adjusting the angle of your solar panels is not recommended on pitched roofs for two main reasons:

You can also utilize automatic solar tracking mechanisms, which follow the sun to maximize system productivity. However, these mechanisms have downsides. Utility-scale solar systems with tracking are around 14% more expensive than fixed-angle systems, according to the Solar Energy Industries Association (SEIA). Your maintenance costs will also be higher since your solar PV system now has moving parts subject to mechanical wear.

Automatic solar trackers may be viable for homeowners with very limited roof space for solar panels. Otherwise, the most effective way to increase production is by simply adding more panels to your system.

Solar panels are more productive when you optimize their tilt angle and orientation based on local sun conditions. Thanks to the Global Solar Atlas, you can easily determine the optimal tilt angle for solar panels in any location. However, you must also consider site-specific conditions such as shading and roof space availability.

You can increase the productivity of solar panels by changing their tilt depending on the time of year. For example, you can decrease their tilt angle during summer months when the sun is high in the sky, and increase their tilt during winter months when the sun is closer to the horizon. This is generally recommended for ground-mount or flat roof installations since doing a DIY solar panel adjustment on a sloped roof can be dangerous.

The ideal orientation and tilt of your solar panels depend on your geographic location. As a rule of thumb:

As you move closer to the Earth's poles, the optimal angle increases. You can determine the ideal tilt angle for your location using the Global Solar Atlas.

There is no specific tilt angle in which solar panels will stop working. Rather, panels will stop generating electricity in any position where another object (like a tree or building) blocks the sun's rays from reaching their surface.

This depends on your location. Flat solar panels work best near the equator, where the sun's position is high in the sky. Angled solar panels are more productive in locations farther to the north or south, where the sun has a lower altitude.

Solar panels will charge a battery at any angle that allows sunlight to reach its surface. However, you can get more charge by using the ideal angle and orientation based on your geographic location.

According to our March 2023 survey of homeowners with solar panels, the average solar system costs between $15,001 and $20,000. However, your total cost may be higher or lower based on your location, equipment and solar installation company. In addition to your energy savings, you can take advantage of incentives like the federal solar tax credit to help lower your total system cost.

Leonardo David is an electromechanical engineer, MBA, energy consultant and technical writer. His energy-efficiency and solar consulting experience covers sectors including banking, textile manufacturing, plastics processing, pharmaceutics, education, food processing, real estate and retail. He has also been writing articles about energy and engineering topics since 2015.

Tori Addison is an editor who has worked in the digital marketing industry for over five years. Her experience includes communications and marketing work in the nonprofit, governmental and academic sectors. A journalist by trade, she started her career covering politics and news in New York's Hudson Valley. Her work included coverage of local and state budgets, federal financial regulations and health care legislation.

Geographic location: Latitude: Electricity usage: Electricity usage: Roof shading: optimum tilt angle for PV modules" specific photovoltaic power output, Leonardo David Tori Addison
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