Solar cells : an introduction to crystalline photovoltaic technology / Jeffrey A. Mazer.
Material type:
TextPublisher: [S.l.] : Springer, 2011Edition: Softcover reprint of the original 1st ed. 1997Description: 216 p. ; 24 cmISBN: 1461380669 ; 9781461380665 Subject(s): Diodes, Semiconductor | Photovoltaic power generation | Silicon crystals | Solar cellsDDC classification: 621.31244 LOC classification: TK2960Online resources: Amazon.com Summary: The expense of extending the conventional electric power utility-grid to remote loca� tions (about $20,000 per mile in the U. S. ) often prohibits the installation of electric lighting, common household appliances, television receivers, and other telecommuni� cations equipment in such locations. Additionally, the installation of important, but perhaps seldom noticed, electronic equipment such as remote automatic weather moni� toring stations, microwave telephone repeaters on mountain tops, and earth-bound navi� gational aids for commercial aircraft and ships, is also impeded by the difficulty in providing electric power. The unavailability or expense of electric power in remote locations is a particularly acute problem in underdeveloped countries. The opportunity for people in these countries to improve their lives through technology will be mostly lost if they can not obtain even modest amounts of electricity. In a rural village, for example, just one or two kilowatts of electrical power can make a tremendous differ� ence in the quality of life by providing refrigeration for food and medicinal storage, lighting for reading after dark, television reception, and water pumping and purifica� tion. In the industrialized countries, there is the additional problem of the environmen� tal burden of producing and distributing huge amounts of electricity in an economy which is� always hungry for electric power. However, within the last several years, photovoltaic (i. e. , crystalline silicon solar cell) engineering has become a cost-com� petitive approach for ameliorating certain difficult electrical power needs in both un� derdeveloped and industrialized countries.
| Item type | Current location | Home library | Collection | Shelving location | Call number | Status | Date due | Barcode | Item holds |
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Central Library (CL) | US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) | NFIC | General Stacks | 621.31244 MAZ 2011 (Browse shelf) | In transit from Central Library (CL) to US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) since 10/05/2023 | CAS-E0000340 |
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| 621.312429 RAY Fuel cell fundamentals / | 621.312429 RAY 2009 Fuel cell fundamentals / | 621.312429 RAY 2009 Fuel cell fundamentals / | 621.31244 MAZ 2011 Solar cells : | 621.31244 NAN 2010 Nanotechnology for photovoltaics / | 621.31244 ORG 2012 Organic, inorganic, and hybrid solar cells : | 621.31244 RAN 2005 Designing indoor solar products : |
The expense of extending the conventional electric power utility-grid to remote loca� tions (about $20,000 per mile in the U. S. ) often prohibits the installation of electric lighting, common household appliances, television receivers, and other telecommuni� cations equipment in such locations. Additionally, the installation of important, but perhaps seldom noticed, electronic equipment such as remote automatic weather moni� toring stations, microwave telephone repeaters on mountain tops, and earth-bound navi� gational aids for commercial aircraft and ships, is also impeded by the difficulty in providing electric power. The unavailability or expense of electric power in remote locations is a particularly acute problem in underdeveloped countries. The opportunity for people in these countries to improve their lives through technology will be mostly lost if they can not obtain even modest amounts of electricity. In a rural village, for example, just one or two kilowatts of electrical power can make a tremendous differ� ence in the quality of life by providing refrigeration for food and medicinal storage, lighting for reading after dark, television reception, and water pumping and purifica� tion. In the industrialized countries, there is the additional problem of the environmen� tal burden of producing and distributing huge amounts of electricity in an economy which is� always hungry for electric power. However, within the last several years, photovoltaic (i. e. , crystalline silicon solar cell) engineering has become a cost-com� petitive approach for ameliorating certain difficult electrical power needs in both un� derdeveloped and industrialized countries.
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