Preface. List of Contributors.-
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.-
Çukurova University, Turkey in collaboration with Ljubljana University, Slovenia and the International Energy Agency Implementing Agreement on Energy Conservation Through Energy Storage (IEA ECES IA) organized a NATO Advanced Study Institute on Thermal Energy Storage for Sustainable Energy Consumption - Fundamentals, Case Studies and Design (NATO ASI TESSEC), in Cesme, Izmir, Turkey in June, 2005. This book contains manuscripts based on the lectures included in the scientific programme of the NATO ASI TESSEC.
Utilization of natural and renewable energy resources with thermal energy storage in heating and cooling applications
Covering all aspects of thermal energy storage in aquifers, boreholes, phase change materials and thermochemical reactions
Climate change mitigation with thermal energy storage
Site investigations for underground thermal energy storage applications
Borehole thermal energy storage design examples using Earth Energy Design software