Rarebooksclub.com. Paperback. New. This item is printed on demand. Paperback. 74 pages. Original publisher: Golden, Colo. : National Renewable Energy Laboratory, 2006 OCLC Number: (OCoL… Mehr…
Rarebooksclub.com. Paperback. New. This item is printed on demand. Paperback. 74 pages. Original publisher: Golden, Colo. : National Renewable Energy Laboratory, 2006 OCLC Number: (OCoLC)216929225 Subject: Solar energy. Excerpt: . . . Introduction Overview Multinary Cu ( In, Ga ) ( Se, S ) absorbers ( CIS-based absorbers ) are promising candidates for 2 reducing the cost of photovoltaics well below the cost of crystalline silicon. CIS champion solar cells fabricated at NREL have exceeded 19 efficiency 4 . Small area, fully integrated modules exceeding 13 in efficiency have been demonstrated by several groups 5 . Record breaking efficiencies of over 12 for a commercial large area module have been verified by NREL 6 . Long-term outdoor stability has been demonstrated at NREL by 30x30 cm and 30x120 cm SSI modules which have been in field-testing for over sixteen years. Projections based on current processing indicate production costs well below the cost of crystalline silicon 5 . Compared to traditional wafer-based crystalline silicon technologies, new thin film technologies yield products of comparable performance but with significant advantages in manufacturing 5, 7 : Lower consumption of direct and indirect materials Fewer processing steps Easier automation Lower consumption of direct and indirect materials results in part from the thin-film structure for the semiconductor used to collect solar energy. All three of these manufacturing advantages are in part due to an integrated, monolithic circuit design illustrated in Figure 1. Monolithic ZnO CdS CIS Moly Glass Figure 1. Structure of SSIs monolithically integrated thin-film circuits. integration eliminates multiple process steps that are otherwise required to handle individual wafers and assemble individual solar cells into the final product. A number of thin film photovoltaic technologies have been developed as alternatives to the traditional solar cells based on crystalline silicon wafers 5 . The technologies with the greatest potential to significantly reduce. . . This item ships from La Vergne,TN., Rarebooksclub.com<
RareBooksClub. Paperback. New. This item is printed on demand. Paperback. 74 pages. Original publisher: Golden, Colo. : National Renewable Energy Laboratory, 2006 OCLC Number: (OCoLC)21… Mehr…
RareBooksClub. Paperback. New. This item is printed on demand. Paperback. 74 pages. Original publisher: Golden, Colo. : National Renewable Energy Laboratory, 2006 OCLC Number: (OCoLC)216929225 Subject: Solar energy. Excerpt: . . . Introduction Overview Multinary Cu ( In, Ga ) ( Se, S ) absorbers ( CIS-based absorbers ) are promising candidates for 2 reducing the cost of photovoltaics well below the cost of crystalline silicon. CIS champion solar cells fabricated at NREL have exceeded 19 efficiency 4 . Small area, fully integrated modules exceeding 13 in efficiency have been demonstrated by several groups 5 . Record breaking efficiencies of over 12 for a commercial large area module have been verified by NREL 6 . Long-term outdoor stability has been demonstrated at NREL by 30x30 cm and 30x120 cm SSI modules which have been in field-testing for over sixteen years. Projections based on current processing indicate production costs well below the cost of crystalline silicon 5 . Compared to traditional wafer-based crystalline silicon technologies, new thin film technologies yield products of comparable performance but with significant advantages in manufacturing 5, 7 : Lower consumption of direct and indirect materials Fewer processing steps Easier automation Lower consumption of direct and indirect materials results in part from the thin-film structure for the semiconductor used to collect solar energy. All three of these manufacturing advantages are in part due to an integrated, monolithic circuit design illustrated in Figure 1. Monolithic ZnO CdS CIS Moly Glass Figure 1. Structure of SSIs monolithically integrated thin-film circuits. integration eliminates multiple process steps that are otherwise required to handle individual wafers and assemble individual solar cells into the final product. A number of thin film photovoltaic technologies have been developed as alternatives to the traditional solar cells based on crystalline silicon wafers 5 . The technologies with the greatest potential to significantly reduce. . . This item ships from La Vergne,TN., RareBooksClub<
Rarebooksclub.com. Paperback. New. This item is printed on demand. Paperback. 74 pages. Original publisher: Golden, Colo. : National Renewable Energy Laboratory, 2006 OCLC Number: (OCoL… Mehr…
Rarebooksclub.com. Paperback. New. This item is printed on demand. Paperback. 74 pages. Original publisher: Golden, Colo. : National Renewable Energy Laboratory, 2006 OCLC Number: (OCoLC)216929225 Subject: Solar energy. Excerpt: . . . Introduction Overview Multinary Cu ( In, Ga ) ( Se, S ) absorbers ( CIS-based absorbers ) are promising candidates for 2 reducing the cost of photovoltaics well below the cost of crystalline silicon. CIS champion solar cells fabricated at NREL have exceeded 19 efficiency 4 . Small area, fully integrated modules exceeding 13 in efficiency have been demonstrated by several groups 5 . Record breaking efficiencies of over 12 for a commercial large area module have been verified by NREL 6 . Long-term outdoor stability has been demonstrated at NREL by 30x30 cm and 30x120 cm SSI modules which have been in field-testing for over sixteen years. Projections based on current processing indicate production costs well below the cost of crystalline silicon 5 . Compared to traditional wafer-based crystalline silicon technologies, new thin film technologies yield products of comparable performance but with significant advantages in manufacturing 5, 7 : Lower consumption of direct and indirect materials Fewer processing steps Easier automation Lower consumption of direct and indirect materials results in part from the thin-film structure for the semiconductor used to collect solar energy. All three of these manufacturing advantages are in part due to an integrated, monolithic circuit design illustrated in Figure 1. Monolithic ZnO CdS CIS Moly Glass Figure 1. Structure of SSIs monolithically integrated thin-film circuits. integration eliminates multiple process steps that are otherwise required to handle individual wafers and assemble individual solar cells into the final product. A number of thin film photovoltaic technologies have been developed as alternatives to the traditional solar cells based on crystalline silicon wafers 5 . The technologies with the greatest potential to significantly reduce. . . This item ships from La Vergne,TN., Rarebooksclub.com<
RareBooksClub. Paperback. New. This item is printed on demand. Paperback. 74 pages. Original publisher: Golden, Colo. : National Renewable Energy Laboratory, 2006 OCLC Number: (OCoLC)21… Mehr…
RareBooksClub. Paperback. New. This item is printed on demand. Paperback. 74 pages. Original publisher: Golden, Colo. : National Renewable Energy Laboratory, 2006 OCLC Number: (OCoLC)216929225 Subject: Solar energy. Excerpt: . . . Introduction Overview Multinary Cu ( In, Ga ) ( Se, S ) absorbers ( CIS-based absorbers ) are promising candidates for 2 reducing the cost of photovoltaics well below the cost of crystalline silicon. CIS champion solar cells fabricated at NREL have exceeded 19 efficiency 4 . Small area, fully integrated modules exceeding 13 in efficiency have been demonstrated by several groups 5 . Record breaking efficiencies of over 12 for a commercial large area module have been verified by NREL 6 . Long-term outdoor stability has been demonstrated at NREL by 30x30 cm and 30x120 cm SSI modules which have been in field-testing for over sixteen years. Projections based on current processing indicate production costs well below the cost of crystalline silicon 5 . Compared to traditional wafer-based crystalline silicon technologies, new thin film technologies yield products of comparable performance but with significant advantages in manufacturing 5, 7 : Lower consumption of direct and indirect materials Fewer processing steps Easier automation Lower consumption of direct and indirect materials results in part from the thin-film structure for the semiconductor used to collect solar energy. All three of these manufacturing advantages are in part due to an integrated, monolithic circuit design illustrated in Figure 1. Monolithic ZnO CdS CIS Moly Glass Figure 1. Structure of SSIs monolithically integrated thin-film circuits. integration eliminates multiple process steps that are otherwise required to handle individual wafers and assemble individual solar cells into the final product. A number of thin film photovoltaic technologies have been developed as alternatives to the traditional solar cells based on crystalline silicon wafers 5 . The technologies with the greatest potential to significantly reduce. . . This item ships from La Vergne,TN., RareBooksClub<
1Da einige Plattformen keine Versandkonditionen übermitteln und diese vom Lieferland, dem Einkaufspreis, dem Gewicht und der Größe des Artikels, einer möglichen Mitgliedschaft der Plattform, einer direkten Lieferung durch die Plattform oder über einen Drittanbieter (Marketplace), etc. abhängig sein können, ist es möglich, dass die von eurobuch angegebenen Versandkosten nicht mit denen der anbietenden Plattform übereinstimmen.
Buch in der Datenbank seit 2014-12-07T23:59:45+01:00 (Berlin) Detailseite zuletzt geändert am 2015-06-03T18:46:53+02:00 (Berlin) ISBN/EAN: 9781234552756
ISBN - alternative Schreibweisen: 978-1-234-55275-6 Alternative Schreibweisen und verwandte Suchbegriffe: Titel des Buches: horatii flacci opera
Weitere, andere Bücher, die diesem Buch sehr ähnlich sein könnten:
