Paksoy, Halime Ö.

Thermal Energy Storage for Sustainable Energy Consumption Fundamentals, Case Studies and Design / [electronic resource] : Proceedings of the NATO Advanced Study Institute on Thermal Energy Storage for Sustainable Energy Consumption - Fundamentals, Case Studies and Design, Izmir, Turkey, 6-17 June 2005 edited by Halime Ö Paksoy. - Dordrecht : Springer Netherlands, 2007. - XII, 428 p. online resource. - NATO Science Series, Mathematics, Physics and Chemistry, 234 1568-2609 ; . - NATO Science Series, Mathematics, Physics and Chemistry, 234 .

HISTORY OF THERMAL ENERGY STORAGE -- ENERGETIC, EXERGETIC, ENVIRONMENTAL AND SUSTAINABILITY ASPECTS OF THERMAL ENERGY STORAGE SYSTEMS -- CLIMATE CHANGE AND THERMAL ENERGY STORAGE -- WHAT ENGINEERS NEED TO KNOW ABOUT CLIMATE CHANGE AND ENERGY STORAGE -- GLOBAL WARMING IS LARGE-SCALE THERMAL ENERGY STORAGE -- ENERGY STORAGE FOR SUSTAINABLE FUTURE—A SOLUTION TO GLOBAL WARMING -- ENERGY EFFICIENT DESIGN AND ECONOMICS OF TES -- ENERGY EFFICIENT BUILDING DESIGN AND THERMAL ENERGY STORAGE -- HEAT STORAGE BY PHASE CHANGING MATERIALS AND THERMOECONOMICS -- UNDERGROUND THERMAL ENERGY STORAGE -- AQUIFER THERMAL ENERGY STORAGE (ATES) -- ADVANCES IN GEOTHERMAL RESPONSE TESTING -- FREEZING PROBLEMS IN BOREHOLE HEAT EXCHANGERS -- THREE YEARS MONITORING OF A BOREHOLE THERMAL ENERGY STORE OF A UK OFFICE BUILDING -- A UNIQUE BOREHOLE THERMAL STORAGE SYSTEM AT UNIVERSITY OF ONTARIO INSTITUTE OF TECHNOLOGY -- BTES FOR HEATING AND COOLING OF THE ASTRONOMY HOUSE IN LUND -- BO 01 ATES SYSTEM FOR HEATING AND COOLING IN MALMÖ -- ATES FOR DISTRICT COOLING IN STOCKHOLM -- ENERGY PILE SYSTEM IN NEW BUILDING OF SAPPORO CITY UNIVERSITY -- PHASE CHANGE MATERIALS -- PHASE CHANGE MATERIALS AND THEIR BASIC PROPERTIES -- PHASE CHANGE MATERIALS: APPLICATION FUNDAMENTALS -- TEMPERATURE CONTROL WITH PHASE CHANGE MATERIALS -- APPLICATION OF PCM FOR HEATING AND COOLING IN BUILDINGS -- THE SUNDSVALL SNOW STORAGE–SIX YEARS OF OPERATION -- DEVELOPMENT OF THE PCM FLOOR SUPPLY AIR-CONDITIONING SYSTEM -- THERMOCHEMICAL ENERGY STORAGE -- CHEMICAL ENERGY CONVERSION TECHNOLOGIES FOR EFFICIENT ENERGY USE -- SORPTION THEORY FOR THERMAL ENERGY STORAGE -- ADSORPTION SYSTEMS FOR TES—DESIGN AND DEMONSTRATION PROJECTS -- OPEN ABSORPTION SYSTEMS FOR AIR CONDITIONING AND THERMAL ENERGY STORAGE.

Weallshareasmallplanet.Ourgrowingthirstforenergyalreadythreatensthe future of our earth. Fossil fuels—energy resources of today—are not evenly distributed on the earth. 10% of the world’s population exploits 90% of its resources. Today’s energy systems rely heavily on fossil fuel resources which are diminishing everfaster. The worldmustprepareforafuturewithoutfossil fuels. Sustainable energy consumption—thereby maintaining continuity and security of energy resources—has become urgent matter for all countries. Concerns over an imminent climate change have increased as a consequence of global warming and many recent storms, “heat waves,” as well as “bla- outs” experienced around the world. Thermal energy storage provides us with a ?exible heating and/or co- ing tool to combat climate change through conserving energy and increasing energy ef?ciency. Utilizing local and renewable sources can be greatly - proved and made more productive when coupled with thermal energy storage systems.Thermalenergystoragecanalsobeusedtoleveloutbothdiurnaland seasonal peaks occurring in energy demand curves, especially those which result from cooling demand. Thermal storage applications have been proven to be ef?cient and ?n- cially viable, yet they have not been exploited suf?ciently. For widespread applications of properly designed and high-ef?ciency thermal energy storage systems, one must consult the scienti?c and technical expertise of scientists and engineers in this ?eld. There is an urgent need for an educational opp- tunity to serve this purpose.

9781402052903

10.1007/978-1-4020-5290-3 doi


Engineering.
Building construction.
Engineering economy.
Climatic changes.
Engineering.
Renewable Energy Sources.
Building Construction, HVAC, Refrigeration.
Climate Change.
Energy Economics.
Engineering Thermodynamics, Transport Phenomena.

TJ807-830

621.042


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