The years 2006 and 2007 mark a dramatic change of peoples view regarding c- mate change and energy consumption. The new IPCC report makes clear that – mankind plays a dominant role on climate change due to CO emissions from en- 2 ergy consumption, and that a significant reduction in CO emissions is necessary 2 within decades. At the same time, the supply of fossil energy sources like coal, oil, and natural gas becomes less reliable. In spring 2008, the oil price rose beyond 100 $/barrel for the first time in history. It is commonly accepted today that we have to reduce the use of fossil fuels to cut down the dependency on the supply countries and to reduce CO emissions. The use of renewable energy sources and 2 increased energy efficiency are the main strategies to achieve this goal. In both strategies, heat and cold storage will play an important role. People use energy in different forms, as heat, as mechanical energy, and as light. With the discovery of fire, humankind was the first time able to supply heat and light when needed. About 2000 years ago, the Romans started to use ceramic tiles to store heat in under floor heating systems. Even when the fire was out, the room stayed warm. Since ancient times, people also know how to cool food with ice as cold storage.
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Table of Content
Basic thermodynamics of thermal energy storage.- Solid-liquid phase change materials.- Determination of physical and technical properties.- Heat transfer basics.- Design of latent heat storages.- Integration of active storages into systems.- Applications in transport and storage containers.- Applications for the human body.- Applications for heating and cooling in buildings.About the author
Dr. Harald Mehling, born: 03.08.1966Education: M.A. (SUNY Buffalo, USA), 1992; Diploma Physics, University of Würzburg (Germany), 1995; Ph.D., University of Würzburg (Germany), 1998
Since 1995 working at the Bavarian Center for applied Energy Research, since 1998 Group leader ‘Latent heat storage’
Coordinator of the BMWA funded strategic project ‘Innovative PCM-technology’ (budget about 6 Mio €, 1999-2004)
Organizer of two workshops on latent heat storage
Author or co-author of about 50 publications, with more than 20 reviewed
Books contributions (4 chapters): Thermal energy storage for sustainable energy consumption – fundamentals, case studies and design; NATO Science series II. Mathematics, Physics and Chemistry – Vol. 234, Springer, 2007, ISBN 978–1–4020–5289–7 Editor: H.Ö.Paksoy
Luisa F. Cabeza is Professor on Thermal Engineering at the University of Lleida (Lleida, Spain). She graduated on Chemical Engineering and Industrial Engineering in 1992 at University Ramon Llull (Barcelona, Spain), in 1995 she got an MBA and in 1996 her Ph D on Industrial Engineering at the same university. From 1996 to 1998 she worked at the Eastern Regional Research Center, Agricultural Research Service, United States Department of Agriculture (Philadelphia, USA). In 1999 she joined the University of Lleida as Assistant Professor, and she became Full Professor in 2006. She lead the Research Group on Applied Energy at the same university, today a research group with 25 researchers, recognised by several Spanish Agencies for its work.
Language English ● Format PDF ● Pages 308 ● ISBN 9783540685579 ● File size 23.5 MB ● Publisher Springer Berlin ● City Heidelberg ● Country DE ● Published 2008 ● Downloadable 24 months ● Currency EUR ● ID 2162825 ● Copy protection Social DRM
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