V2 Cigs
V2 Cigs
Visit my website for more information about V2 Cigs
With solar manufacturing, there's a close contest to see which materials would be the materials of selection for Photovoltaic cell/module production. The PV module discipline is dominated by silicon at this point. An estimated 90% of the PV modules in use at this time are silicon based. There may be good motive for this amount of use. Silicon (together with metal and concrete) is without doubt one of the three most studied materials in history, and due to this, a lot is understood about silicon and its properties. Silicon is time-tested and has shown to be very dependable for PV module production. Nonetheless even silicon supporters agree that silicon just isn't exactly suited to its role in PV production. Silicon is just not a conductor by nature. Silicon is actually very pure, to the tune of 99.9% pure and to ensure that silicon to be the excellent conductor that it is, it should be 'doped' with sure materials. Once doped, the purity of silicon is a great benefit for conductivity. Silicon is also rigid and brittle, so the functions of silicon PV cells are somewhat restricted in scope.
CIGS PV modules are working to take silicon's place in the solar module market. Photo voltaic modules produced using the V2 Cigs manufacturing method have got a few things going for them that make them a really enticing over it's silicon counterparts.
Flexibility. V2 Cigs modules may be primarily based on flexible surfaces, often a thin, flexible metallic film. That is necessary for PV modules because it provides new vary to the possibilities for implementation. Now not are PV modules required to be massive heavy panels that take up substantial roof space and could also be thought of unappealing from an architectural point of view.
With solar manufacturing, there's a close contest to see which materials would be the materials of selection for Photovoltaic cell/module production. The PV module discipline is dominated by silicon at this point. An estimated 90% of the PV modules in use at this time are silicon based. There may be good motive for this amount of use. Silicon (together with metal and concrete) is without doubt one of the three most studied materials in history, and due to this, a lot is understood about silicon and its properties. Silicon is time-tested and has shown to be very dependable for PV module production. Nonetheless even silicon supporters agree that silicon just isn't exactly suited to its role in PV production. Silicon is just not a conductor by nature. Silicon is actually very pure, to the tune of 99.9% pure and to ensure that silicon to be the excellent conductor that it is, it should be 'doped' with sure materials. Once doped, the purity of silicon is a great benefit for conductivity. Silicon is also rigid and brittle, so the functions of silicon PV cells are somewhat restricted in scope.
CIGS PV modules are working to take silicon's place in the solar module market. Photo voltaic modules produced using the V2 Cigs manufacturing method have got a few things going for them that make them a really enticing over it's silicon counterparts.
Flexibility. V2 Cigs modules may be primarily based on flexible surfaces, often a thin, flexible metallic film. That is necessary for PV modules because it provides new vary to the possibilities for implementation. Now not are PV modules required to be massive heavy panels that take up substantial roof space and could also be thought of unappealing from an architectural point of view.
V2 Cigs
Low Cost - CIGS manufacturing methods creates photo voltaic movie, that's much thinner than the average solar wafer. Thinner means much less materail and less material equals lower cost. It's forecasted that by 2010, CIGS manufacturing, will deliver the value of photo voltaic modules as much as 2.50 per watt. Couple that with rising oil prices and photo voltaic shall be very aggressive with fossil fuels
Efficiency. The usual for PV efficiency within the silicon world is around thirteen%, and climbing. Silicon supporters know that in an ideal world, silicon's efficiency will prime out at round 30%. CIGS effectivity right now's around 11% and in addition climbing. Because conductivity is a local skill of the CIGS combination the higher vary of effectivity is regarded as a lot higher. The flexiblity afforded by the CIGS course of offsets the comparatively low lack of efficiency for a lot of people. The best ever achieved with CIGS is 19.5% efficiency, which is larger than amorphous silicon or cadmium PV cells
CIGS manufacturing even has the promise of spray-on as well as printable photovoltaics. In principle, not simply your roof could create energy from the solar, however your total house. Also it is rather attainable and certain with this know-how that you'll quickly have the ability to print off PV cells out of your private printer though they likely won't be environment friendly enough to actually energy your home.
Visit my website for more information about V2 Cigs
Efficiency. The usual for PV efficiency within the silicon world is around thirteen%, and climbing. Silicon supporters know that in an ideal world, silicon's efficiency will prime out at round 30%. CIGS effectivity right now's around 11% and in addition climbing. Because conductivity is a local skill of the CIGS combination the higher vary of effectivity is regarded as a lot higher. The flexiblity afforded by the CIGS course of offsets the comparatively low lack of efficiency for a lot of people. The best ever achieved with CIGS is 19.5% efficiency, which is larger than amorphous silicon or cadmium PV cells
CIGS manufacturing even has the promise of spray-on as well as printable photovoltaics. In principle, not simply your roof could create energy from the solar, however your total house. Also it is rather attainable and certain with this know-how that you'll quickly have the ability to print off PV cells out of your private printer though they likely won't be environment friendly enough to actually energy your home.
Visit my website for more information about V2 Cigs