Solar Panels – Crystalline vs Amorphous
The majority of the solar roofing systems installed over the last decades of use wafer-based crystalline silicon cells to convert solar energy into electricity. Typically, crystalline solar panels sunlight conversion efficiencies which range from 8 to 15 percent. Unfortunately, crystalline solar panels an expensive option roofing solar energy, through a complicated and labor-intensive process.
Alternatively, a newer and cheaper type of photovoltaic panel was formed in the solar panel roofing scene: amorphous photovoltaic panels. Because amorphous solar roofing systems require less intensive production process, they are much more affordable than their crystalline counterparts. However, amorphous panels have lower efficiencies than crystalline systems. Typical amorphous panels are energy conversion efficiency ranging from 2 to 4 percent.
More and more home and business owners are turning to solar roof solutions as a way to combat rising energy costs and the responsibility for the environment to promote.
Well suited for the notoriously unpredictable (and sometimes harsh) back in the Mid-west, as well as across the country, solar PV panel systems can dramatically reduce heating and cooling costs of your home or business. In fact, a 10 kW system of solar PV panels generate the energy equivalent of £ 583,000 from coal than is life! Over the same life will solar PV panel installation to add to your bottom line. In just the first six years of use, the total savings, income, and incentives of a $ 225,000 installation greater than $ 250,000. The ability of your building self-sufficient in the production of energy will also allow you to sell excess energy to other companies. On top of the savings will show your company / home environmental awareness. Our company will also be an interactive system that the output obtained through the installation of your solar PV panel, so you can see the results instantly will give.
Source: http://ezinearticles.com/?Solar-Panels—Crystalline-vs-Amorphous&id=3604739 by Doug Kirberg