Solar panel systems have always been slammed as large and unsightly. New solar innovation is beginning to make such criticisms a thing of the past.
The solar panel systems tended to be huge and rather bulky. While solar panel designs have improved over the years, a brand-new development involving shingles is getting a lot of attention.
Photovoltaic shingles are a major design development for those who have a distaste for large solar panel systems. They are black, they do not standout from the roofing in the way of panels. Obviously, this smooth design is much better than the bulky designs of panel systems.
The technological breakthrough that makes this brand-new technology possible is the creation of thin movie photovoltaic cells. Known as “amorphous silicon thin alloy technology”, the designers essentially stepped back from traditional solar panel designs and did some thinking. What they understood is the products used in panels were not the only ones that can be used.
The ultimate outcome is a system that can sit directly on the roof of a house or structure, is more efficient than regular solar panels and far more attractive from a visual point of view. If you’re excuse for not utilizing solar in the past was the bulky system, you have to reconsider solar.
Will this brand-new innovation become the advancement we have been waiting for in solar power? It already is if you consider simply the following:
1. The United States Army is constructing a solar powered neighborhood utilizing it.
2. Museums in Beijing, China are transforming to it.
3. Environment for Humanity is making use of the system on numerous of the homes it constructs.
4. Lockheed Martin is try out the technology as a source of power for high altitude air travels.
In the viewpoint of numerous specialists, this new innovation represent a major advancement in solar energy. With energy costs blowing up, solar represents the very best option to lowering our reliance on restricted oil and gas resources. The sun will be providing free power for the foreseeable future.