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200 00$aAdvances in thermal energy storage systems $emethods and applications /$fLuisa F. Cabeza
210  1$aCambridge, [England] :$cWoodhead Publishing,$d2015.
210  4$d©2015
215   $a1 online resource (623 p.)
225 1 $aWoodhead Publishing Series in Energy
300   $aDescription based upon print version of record.
311   $a1-322-28128-9 
311   $a1-78242-088-6 
320   $aIncludes bibliographical references and index.
327   $aCover; Advances in Thermal Energy Storage Systems: Methods and Applications; Copyright; Contents; List of contributors; Woodhead Publishing Series in Energy; Preface; 1 Introduction to thermal energy storage (TES) systems; 1.1 Introduction; 1.2 Basic thermodynamics of energy storage; 1.3 Overview of system types; 1.4 Environmental impact and energy savings produced; 1.5 Conclusions; Acknowledgements; References; Part One Sensible heat storage systems; 2 Using water for heat storage in thermal energy storage (TES); 2.1 Introduction
327   $a2.2 Principles of sensible heat storage systems involving water2.3 Advances in the use of water for heat storage; 2.4 Future trends; 2.5 Sources of further information and advice; References; 3 Using molten salts and other liquid sensible storage media inthermal energy storage (TES) systems; 3.1 Introduction; 3.2 Principles of heat storage systems using molten salts and other liquid sensible storage media; 3.3 Advances in molten salt storage; 3.4 Advances in other liquid sensible storage media; 3.5 Future trends; 3.6 Sources of further information and advice; Acknowledgements; References
327   $a4 Using concrete and other solid storage media in thermal energy storage (TES) systems 4.1 Introduction; 4.2 Principles of heat storage in solid media; 4.3 State-of-the-art regenerator-type storage; 4.4 Advances in the use of solid storage media for heat storage; References; 5 The use of aquifers as thermal energy storage (TES) systems; 5.1 Introduction; 5.2 Thermal sources; 5.3 Aquifer thermal energy storage (ATES); 5.4 Thermal and geophysical aspects; 5.5 ATES design; 5.6 ATES cooling only case study: Richard Stockton College of New Jersey
327   $a5.7 ATES district heating and cooling with heat pumps case study: Eindhoven University of Technology5.8 ATES heating and cooling with de-icing case study: ATES plant at Stockholm Arlanda Airport; 5.9 Conclusion; Acknowledgements; Bibliography; 6 The use of borehole thermal energy storage (BTES) systems; 6.1 Introduction; 6.2 System integration of borehole thermal energy storage (BTES); 6.3 Investigation and design of BTES construction sites; 6.4 Construction of borehole heat exchangers (BHEs) and BTES; 6.5 Examples of BTES; 6.6 Conclusion and future trends; References
327   $a7 Analysis, modeling and simulation of underground thermalenergy storage (UTES) systems7.1 Introduction; 7.2 Aquifer thermal energy storage (ATES) system; 7.3 Borehole thermal energy storage (BTES) system; 7.4 FEFLOW as a tool for simulating underground thermal energy storage (UTES); 7.5 Applications; References; Appendix: Nomenclature; Part Two Latent heat storage systems; 8 Using ice and snow in thermal energy storage systems; 8.1 Introduction; 8.2 Principles of thermal energy storage systems using snow and ice; 8.3 Design and implementation of thermal energy storage using snow
327   $a8.4 Full-scale applications
330   $aThermal energy storage (TES) technologies store thermal energy (both heat and cold) for later use as required, rather than at the time of production. They are therefore important counterparts to various intermittent renewable energy generation methods and also provide a way of valorising waste process heat and reducing the energy demand of buildings. This book provides an authoritative overview of this key area. Part one reviews sensible heat storage technologies. Part two covers latent and thermochemical heat storage respectively. The final section addresses applications in heating and energy
410  0$aWoodhead Publishing in energy.
606   $aHeat storage
606   $aEngineering
606   $aMechanical engineering
608   $aElectronic books.
615  0$aHeat storage.
615  0$aEngineering.
615  0$aMechanical engineering.
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200 10$aFrühe strafverteidigung und untersuchungshaft $eeine empirische studie /$fUlrike Busse
210  1$aGo?ttingen :$cUniversitätsverlag Göttingen,$d2008.
210  4$d©2008
215   $a1 online resource (xv, 328, xxi pages) $cillustrations
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225 1 $aGo?ttinger Studien zu den Kriminalwissenschaften,$x1864-2136 ;$vBand 3
320   $aIncludes bibliographical references (pages vii-xxi)
330   $aCan early criminal defense helping to avoid or shorten detention? When early criminal defense means to avoid unnecessary detention which burdens both the involved parties, the enforcement and detention and in terms of costs, the state in unnecessary ways? These questions are discussed in the present investigation. It represents the concept and the results of the accompanying scientific research from a 1998 pilot project carried out in the JVA Hannover. It relies on the analysis of over 1,300 criminal acts and the Federal Central Register's (Bundeszentralregister) statements, the evaluation of the detention list of the local court of Hanover and on extensive interviews with people involved in the project (defence lawyers, prosecutors, judges, court clerks and remand prisoners). The empirical findings of the accompanying be embedded in a legal framework and criminological conclusions are presented.
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606   $aDefense (Criminal procedure)
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615  0$aDefense (Criminal procedure)
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