| Titre : |
Thermal Energy Storage for Sustainable Energy Consumption : Fundamentals, Case Studies and Design |
| Type de document : |
texte imprimé |
| Auteurs : |
Halime Ã-. Paksoy, Auteur |
| Editeur : |
Springer |
| Année de publication : |
2007 |
| Importance : |
447 p. |
| Format : |
24 cm. |
| ISBN/ISSN/EAN : |
978-1-4020-5289-7 |
| Langues : |
Anglais (eng) |
| Mots-clés : |
Thermal Energy- Sustainable Energy- Case Studies |
| Résumé : |
Preface. List of Contributors.- I. Introduction. History of Thermal Energy Storage; E. Morofsk. Energetic, Exergetic, Environmental and Sustainability Aspects of Thermal Energy Storage Systems; I. Dincer and M.A. Rosen.- II. Climate Change and Thermal Energy Storage. What Engineers Need to Know about Climate Change and Energy Storage; E. Morofsky. Global Warming is Large-Scale Thermal Energy Storage; Bo Nordell. Energy Storage for Sustainable Future - A Solution to Global Warming; H. Evliya. III. Energy Efficient Design and Economics of TES. Energy Efficient Building Design and Thermal Energy Storage; E. Morofsky. Heat Storage by Phase Changing Materials and Thermoeconomics; Y. Demirel.- IV. Underground Thermal Energy Storage. Aquifer Thermal Energy Storage (ATES); O. Andersson. Advances in Geothermal Response Testing; H.J.L. Witte. Freezing Problems in Borehole Heat Exchangers; B. Nordell and A.-K. Ahlström. Three Years Monitoring of a Borehole Thermal Energy Store of a UK Office Building; H.J.L. Witte and A.J. Van Gelder. A Unique Borehole Thermal Storage System at University of Ontario Institute of Technology; I. Dincer and M.A. Rosen. BTES for Heating and Cooling of the Astronomy House in Lund; O. Andersson. Bo 01 ATES System for Heating and Cooling in Malmö; O. Andersson. ATES for District Cooling in Stockholm; O. Andersson. Energy Pile System in New Building of Sapporo City University; K. Nagano.- V. Phase Change Materials. Phase Change Materials and their Basic Properties; H. Mehling and L.F. Cabeza. Phase Change Materials: Application Fundamentals; H. Mehling et al. Temperature Control with Phase Change Materials; L.F. Cabeza and H. Mehling. Application of PCM for Heating and Cooling in Buildings; H. Mehling, et al. The Sundsvall Snow Storage - Six Years of Operation; B. Nordell and K. Skogsberg. Development of the PCM Floor Supply Air Conditioning System; K. Nagano.- VI. Thermochemical Energy Storage. Chemical Energy Conversion Technologies for Efficient Energy Use; Y. Kato. Sorption Theory for Thermal Energy Storage; A. Hauer. Adsorption Systems for TES - Design and Demonstration Projects; A. Hauer. Open Absorption Systems for Air Conditioning and Thermal Energy Storage; A. Hauer, E. Lãvemann.- Subject Index.
|
Thermal Energy Storage for Sustainable Energy Consumption : Fundamentals, Case Studies and Design [texte imprimé] / Halime Ã-. Paksoy, Auteur . - Springer, 2007 . - 447 p. ; 24 cm. ISBN : 978-1-4020-5289-7 Langues : Anglais ( eng)
| Mots-clés : |
Thermal Energy- Sustainable Energy- Case Studies |
| Résumé : |
Preface. List of Contributors.- I. Introduction. History of Thermal Energy Storage; E. Morofsk. Energetic, Exergetic, Environmental and Sustainability Aspects of Thermal Energy Storage Systems; I. Dincer and M.A. Rosen.- II. Climate Change and Thermal Energy Storage. What Engineers Need to Know about Climate Change and Energy Storage; E. Morofsky. Global Warming is Large-Scale Thermal Energy Storage; Bo Nordell. Energy Storage for Sustainable Future - A Solution to Global Warming; H. Evliya. III. Energy Efficient Design and Economics of TES. Energy Efficient Building Design and Thermal Energy Storage; E. Morofsky. Heat Storage by Phase Changing Materials and Thermoeconomics; Y. Demirel.- IV. Underground Thermal Energy Storage. Aquifer Thermal Energy Storage (ATES); O. Andersson. Advances in Geothermal Response Testing; H.J.L. Witte. Freezing Problems in Borehole Heat Exchangers; B. Nordell and A.-K. Ahlström. Three Years Monitoring of a Borehole Thermal Energy Store of a UK Office Building; H.J.L. Witte and A.J. Van Gelder. A Unique Borehole Thermal Storage System at University of Ontario Institute of Technology; I. Dincer and M.A. Rosen. BTES for Heating and Cooling of the Astronomy House in Lund; O. Andersson. Bo 01 ATES System for Heating and Cooling in Malmö; O. Andersson. ATES for District Cooling in Stockholm; O. Andersson. Energy Pile System in New Building of Sapporo City University; K. Nagano.- V. Phase Change Materials. Phase Change Materials and their Basic Properties; H. Mehling and L.F. Cabeza. Phase Change Materials: Application Fundamentals; H. Mehling et al. Temperature Control with Phase Change Materials; L.F. Cabeza and H. Mehling. Application of PCM for Heating and Cooling in Buildings; H. Mehling, et al. The Sundsvall Snow Storage - Six Years of Operation; B. Nordell and K. Skogsberg. Development of the PCM Floor Supply Air Conditioning System; K. Nagano.- VI. Thermochemical Energy Storage. Chemical Energy Conversion Technologies for Efficient Energy Use; Y. Kato. Sorption Theory for Thermal Energy Storage; A. Hauer. Adsorption Systems for TES - Design and Demonstration Projects; A. Hauer. Open Absorption Systems for Air Conditioning and Thermal Energy Storage; A. Hauer, E. Lãvemann.- Subject Index.
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