3 Factors to Consider When Choosing a Roof for Solar Panel Installation
The solar power industry is growing at an exponential rate, and for good reason. Solar energy is clean, renewable, and doesn’t produce any emissions while generating electricity! But there’s a catch: the equipment necessary to harness solar power needs space. This can be difficult in some areas where roofs are not spacious or flat enough to accommodate the installation of panels. Learn More Here and we will explore different types of roofs that are appropriate for installing solar panels on top of them!
The first thing to consider is whether or not you have a flat roof. If your home has an asymmetrical, slanted, arched, domed, curvy or complex-shaped roof – it’s best to avoid installing solar panels on top of such roofs! This includes all types of skillion and mono pitch roofs (also known as low slope and steeper pitched). Why? Because these types of roofs are particularly difficult when trying to install solar panels because they don’t provide enough space for the equipment needed.
The next thing to think about is how much shading hits your rooftop during different parts in the day throughout the year. Shade from trees can significantly impact energy production by reducing available sunlight hitting photovoltaic cells that harvest this otherwise free resource into electricity. Therefore, if you have a lot of trees or other structures that cast shadows on your roof throughout the day – it’s best to avoid installing solar panels during these times!
In contrast, roofs with no shade from windbreaks and buildings are great candidates for solar panel installation because they will provide an optimal amount of available sunlight at all times without any blockage by surrounding obstacles. This is why flat roofs in open areas such as deserts make particularly good places to install a system. But even slanted roofs can be installed so long as there aren’t too many large obstructions around them because this could cause shading issues which would reduce energy production capacity over time .
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