The Monocrystalline solar panel is mainly considered as the industry standard. For many years they've efficiently converted energy using the sun and they remain a popular choice. The panels are typically more expensive than most options, but it's with good reason. Just like other panels, they should be connected to a solar inverter in order to use the energy that's collected. If you've heard about Monocrystalline panels, but you're not really sure what to expect, just keep reading.
What makes Monocrystalline Panels Special
Monocrystalline panels were part of the first wave of solar systems that were introduced. They've been in use since the 1970's, which is more than enough time to find all the problems and fix them. In other words, manufacturers are well aware of the short-comings the panels can have. But over the last 40 years the technology for this single silicon crystal panel has improved greatly. This is also what makes them so different from the rest, because they utilize an incredibly pure form of silicon. Now imagine connecting it to a solar inverter and running your home on pure solar power, isn't it something to aspire to.
The Benefits of a Monocrystalline Solar Panel
They last very long:
Many of the panels that have been installed during the 1970's are still working today. In fact, it's very possible that Monocrystalline panels can last up to 50 years, but they do lose efficiency over time. At some point it will be better to them replaced. Plus, all the issues that come with production, installation and maintenance are familiar, which means there won't really be unexpected surprises.
They are very efficient:
To put solar panel efficiency into perspective, let's consider how much sunlight can actually be converted into energy. According to research, a crystalline solar sell can't convert more than 29% of the sunlight into energy. So, in theory 29% is the maximum. PV panels on the other hand have a maximum of about 25%. A quality manufactured Monocrystalline panel converts an average of 22%, although there are panels that can go up to 24%. If you have limited space on your roof and you want to get the most out of it, this type of panel will go a long way.
More heat resistant
Contrary to popular belief, panels don't work better on hotter days. It's all about the actual sunlight, not the heat. When panels get too hot they become less effective. Monocrystalline panels are different in the sense that they don't lose as much efficiency as PV panels when the heat starts building.
They typically cost more:
Even though the price keeps on decreasing, a Monocrystalline solar panel is typically more expensive. The process of making them and the high quality silicon that's necessary are the reasons behind the higher price. For this reason you shouldn't really think about the saving aspects on a short-term basis. Instead, do your calculations over an annual basis, which will bring more logic to the price.
They are fragile
A Monocrystalline solar panel will last very long, but they aren't the most durable. If you have them installed then make sure there aren't any low hanging trees around or anything else that can potentially fall on them. Typical weather elements shouldn't be a problem though. Once it's connected to a solar inverter you'll find out for yourself just how efficient they are.