Titre : |
The shallow solar pond energy conversion system : an analysis of a conceptual 10-MWe plant |
Type de document : |
texte imprimé |
Auteurs : |
Clark, A. F. ; Day, J. A. ; Dickinson, W. C. |
Mention d'édition : |
National Technical Information Service |
Editeur : |
National Technical Information Service |
Année de publication : |
1974 |
ISBN/ISSN/EAN : |
CI-06690 |
Note générale : |
A shallow solar pond system appears to be the most cost effective way to produce large scale electric power from solar energy. Water is used both for heat collection and heat storage. Inexpensive layers of weathesable transparent plastic over the water suppress heat loss to the environment. The hot water is stored in an insulated reservoir at night and during bad weather. The stored hot water geats a thermodynamic fluid, such as freon 11, which drives a turbine and an electric generator. A shallow solar pond system can be built using materiales, fabrication techniques, and geometries that are presently used on a large scale in W.S. industry. |
Langues : |
Anglais (eng) |
Mots-clés : |
Energie solaire Analyse des composantes Système de conversion Cycle thermodynamique Puissance nucléaire |
Index. décimale : |
621.47 energie solaire |
Résumé : |
A shallow solar pond system appears to be the most cost effective way to produce large scale electric power from solar energy. Water is used both for heat collection and heat storage. Inexpensive layers of weathesable transparent plastic over the water suppress heat loss to the environment. The hot water is stored in an insulated reservoir at night and during bad weather. The stored hot water geats a thermodynamic fluid, such as freon 11, which drives a turbine and an electric generator. A shallow solar pond system can be built using materiales, fabrication techniques, and geometries that are presently used on a large scale in W.S. industry. |
Note de contenu : |
A shallow solar pond system appears to be the most cost effective way to produce large scale electric power from solar energy. Water is used both for heat collection and heat storage. Inexpensive layers of weathesable transparent plastic over the water suppress heat loss to the environment. The hot water is stored in an insulated reservoir at night and during bad weather. The stored hot water geats a thermodynamic fluid, such as freon 11, which drives a turbine and an electric generator. A shallow solar pond system can be built using materiales, fabrication techniques, and geometries that are presently used on a large scale in W.S. industry. |
The shallow solar pond energy conversion system : an analysis of a conceptual 10-MWe plant [texte imprimé] / Clark, A. F. ; Day, J. A. ; Dickinson, W. C. . - National Technical Information Service . - National Technical Information Service, 1974. ISSN : CI-06690 A shallow solar pond system appears to be the most cost effective way to produce large scale electric power from solar energy. Water is used both for heat collection and heat storage. Inexpensive layers of weathesable transparent plastic over the water suppress heat loss to the environment. The hot water is stored in an insulated reservoir at night and during bad weather. The stored hot water geats a thermodynamic fluid, such as freon 11, which drives a turbine and an electric generator. A shallow solar pond system can be built using materiales, fabrication techniques, and geometries that are presently used on a large scale in W.S. industry. Langues : Anglais ( eng)
Mots-clés : |
Energie solaire Analyse des composantes Système de conversion Cycle thermodynamique Puissance nucléaire |
Index. décimale : |
621.47 energie solaire |
Résumé : |
A shallow solar pond system appears to be the most cost effective way to produce large scale electric power from solar energy. Water is used both for heat collection and heat storage. Inexpensive layers of weathesable transparent plastic over the water suppress heat loss to the environment. The hot water is stored in an insulated reservoir at night and during bad weather. The stored hot water geats a thermodynamic fluid, such as freon 11, which drives a turbine and an electric generator. A shallow solar pond system can be built using materiales, fabrication techniques, and geometries that are presently used on a large scale in W.S. industry. |
Note de contenu : |
A shallow solar pond system appears to be the most cost effective way to produce large scale electric power from solar energy. Water is used both for heat collection and heat storage. Inexpensive layers of weathesable transparent plastic over the water suppress heat loss to the environment. The hot water is stored in an insulated reservoir at night and during bad weather. The stored hot water geats a thermodynamic fluid, such as freon 11, which drives a turbine and an electric generator. A shallow solar pond system can be built using materiales, fabrication techniques, and geometries that are presently used on a large scale in W.S. industry. |
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