How solar panels work
Solar energy has great potential and it’s a cheap and reliable means of energy, which is transformed into electrical energy by means of efficient mechanical source like a solar panel. The panel contains an array of photovoltaic cells that absorbs sun rays and later transform into a usable form of electricity.
Solar panels are the result of innovation, made from silicon – the element is also used in the construction of semiconductor devices. In fact, it is the silicon element that plays a critical role in the conversion of solar energy into operational electric energy.
The Next Generation Solar Panel Technology
Solar electricity reduces the load on your electricity bills and builds a cleaner environment around your workplace and living spaces. Depending on your personal requirement for solar-generated electricity, the panels are available in different types of shapes and sizes.
The technology used in the solar panels also vary, but the idea out here is to have a superior quality solar panel that works by maximizing each and every photon of solar energy into electricity. These solar panels continue to convert the solar energy into electricity at 60 to 70 per cent more energy-efficient rate.
It’s also understandable that the solar panel you vouch for is designed and consistently tested to face the harshest climatic conditions and these also include the extreme humidity levels, hail storms, and swings in the temperature. Just when you have a solar panel that is of inferior quality, there is energy that is lost during the conversion process.
Solar panels play a decisive role in saving energy and help in the reduction of carbon footprints. And now, you may have become overexcited to find out how the solar panel works?
The photovoltaic cells absorb sunlight directly from the environment, and these cells are capable of generating direct current or the (DC) energy. Afterwards, the DC energy is converted into alternating current (AC) energy by using inverter technology. Once there is AC power, it flows in the usual manner through electric lines.
Of course, the process of conversion of solar energy into electric power is quite a complex one, though, for sake of simplicity, the entire functionality of solar panel conversion is defined in following essential steps:
- Absorption of rays of the sun into the photovoltaic cells;
- The solar energy is then converted into DC form of electricity;
- The solar inverter subsequently converts DC electricity stored in solar modules into AC electricity;
- Electricity then runs through cables, which subsequently powers the electronic devices;
- Excessive electricity generated from solar panels is stored into the electric grid for use later.
Monitoring the Solar Panel System
Once the complete solar panel has been installed, and electricity is produced, a solar electric meter is installed that will keep track of your daily usage of electricity. The best part is that you earn energy credits, and moreover, extra solar electricity produced finds its way through the utility grid. The purpose here is to provide you with a continuous supply of electricity in the night.
On average, a fully functional solar panel set up can produce up to 5-8 Megawatts per hour. However, it is very significant for you to understand that the quantity of solar power you produce on daily basis may likely change, depending on the area you live as well as the climatic conditions prevailing through the day.
Think of making the change in your living environment. Why not look for solar energy. The first obvious thing you need to do right now is get started with installation procedures.
Contact Pioneer Solar to get a FREE Quote on solar installation for Residential or Commercial – 1300 886 786