Using the rapid growth and development of modern technology in making use of solar energy, flexible solar panels, that were once unimaginable, are available to people. They have brought great convenience in applications. This article is likely to discuss about the pros and cons that the flexible solar power has compared to the older generation of solar panels.

The older generations were rigid panels that have been encased to aid the solar cells. They are normally installed on the wall as well as the roof. That is to state, the room where they could be used is quite limited. However, the flexible panel is made of chemical materials which can be printed on almost any type of surface such as plastics, glass and ceramics. They may also be made into many different shapes. They could then be put into calculators, watches or anything that should be driven by electricity.

Their production costs are dramatically reduced because they can be printed on just like a paper. Therefore, their sales charges are much more affordable than their older counterparts. This can be great news for the public as the eco-friendliness and the price are two essential factors affecting the service life and the rise in popularity of a newborn thing amongst the public.

However, flexible solar panels have one disadvantage when compared to the rigid panels, i.e. the efficiency with which the solar power is transferred into electricity. The transfer efficiency in the flexible type is lower than 10%, while that in the rigid solar power panels is about 20%. But in my opinion, this disadvantage may be a lot more than composed by the numerous advantages. In addition, the efficiency could be gradually increased as the technology develops.

The flexible solar power is the rising star of solar cell technology. Manufactured according to thin film technology and promising easy handling and installation this technology could have a bright future. These sorts of panels are extremely light, could be rolled up for transport and lend themselves to installation on irregular surfaces such as automobiles.

An adaptable solar panel is typically made with a roll-to-roll manufacturing process that deposits thin-film amorphous silicon in a thickness of one micrometer on thin sheets of stainless steel or other flexible substrate. The amorphous silicon is used to generate the solar cell as well as the thin stainless steel backing allows the panel to be both flexible and durable. This type of manufacturing allows for higher possible production rates in comparison with other sorts of solar cell manufacturing.

The flexible solar panel manufacturing process is known as roll-to-roll and it has the possibility to lessen the price per kilowatt hour (kWh) of generating capacity in comparison to standard rigid panels. The roll-to-roll manufacturing process while more involved can be pictured like sheets of newspaper coming from the printing press and being rolled up onto a spool. Then your desired dimensions of panel may be presented and cut from your spool of solar panels.

One of many benefits of an adaptable solar panel is the wide range of sizes and shapes that it could be produced in, letting it fit almost anywhere. An additional advantage is lightweight portability and very portable shapes. Since a mwpoek solar cell may be rolled up such as a magazine or newspaper it presents a far more convenient shape for storage and transport.

Common uses of a flexible solar panel are charging portable device batteries like laptops, cell phones and mp3 players. You can also roll a panel out on a sunny rock and employ it to recharge your gps batteries when you are out hiking. These kinds of solar energy cells come in a variety of sizes to accommodate different device requirements and portability needs.

On a larger scale can be used in arrays to create electricity for homes and commercial buildings where their lightweight creates less stress on roofing systems. Being flexible they could be rolled out on curved roofs or walls for simple installation. This feature is especially well best for temporary installations where easy setup and tear down is vital including outdoor events.

An adaptable solar power panel is inherently less efficient when compared to a standard rigid panel. As a result more square inches or square feet of flexible panel area is required to generate the equivalent amount of electricity as being a rigid panel. This disadvantage is frequently offset by the need for lightweight and portable panels in specific applications.

Building a flexible solar power has served to revolutionize the business. Manufactures are making better use of thin film technology to create solar panels both quickly and expense-effectively. If they could increase the efficiencies of this sort of solar cell it is going to truly become an all around competitor. Be on the lookout for next stage of thin film technology that will help you to spray apply solar cell material to almost any surface.