Thermal Energy Storage for Sustainable Energy Consumption: Fundamentals, Case Studies and DesignHalime Ö. Paksoy 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. |
Contents
| 3 | |
Energetic Exergetic Environmental and Sustainability | 23 |
What Engineers Need to Know about Climate Change | 49 |
Global Warming is LargeScale Thermal Energy Storage | 75 |
Energy Storage for Sustainable FutureA Solution | 87 |
Energy Efficient Building Design and Thermal | 103 |
Heat Storage by Phase Changing Materials | 133 |
Aquifer Thermal Energy Storage ATES | 155 |
BO 01 ATES System for Heating and Cooling in Malmo 235 | 234 |
Phase Change Materials and Their Basic Properties | 257 |
Application Fundamentals 279 | 278 |
Temperature Control with Phase Change Materials | 315 |
The Sundsvall Snow StorageSix Years of Operation | 349 |
Development of the PCM Floor Supply | 367 |
Sorption Theory for Thermal Energy Storage | 393 |
Adsorption Systems for TESDesign | 409 |
Advances in Geothermal Response Testing | 177 |
Freezing Problems in Borehole Heat Exchangers | 193 |
A Unique Borehole Thermal Storage System at University | 221 |
Open Absorption Systems for Air Conditioning | 428 |
| 445 | |
Other editions - View all
Thermal Energy Storage for Sustainable Energy Consumption: Fundamentals ... Halime Ö. Paksoy No preview available - 2007 |
Thermal Energy Storage for Sustainable Energy Consumption: Fundamentals ... Halime Ö. Paksoy No preview available - 2007 |
Common terms and phrases
Adjustments to Impacts adsorbent adsorption ambient application aquifer borehole borehole heat exchanger building chemical heat pump chiller Climate Change Climate Change Issues cold components cooling load cooling system cost dehumidification density desorption developed discharging district heating Earth’s economic electricity emissions encapsulation energy efficiency Engineering enthalpy entropy environmental equilibrium estimated evaporation freezing fuel geothermal global warming greenhouse ground loop ground thermal conductivity groundwater heat capacity heat exchanger heat flux heat pump heat pump system heat source heating and cooling heating system humidity increase insulation latent heat liquid material Measures operation packed bed Paksoy parameters phase change problem production reaction reduce seasonal sensible heat shown in Figure snow cooling solar energy solid solution sorption Storage for Sustainable storage system stored supply surface Sustainable Energy Consumption technologies temperature thermal conductivity thermal energy storage thermodynamic Thermoeconomics WATER-TO-AIR HEAT PUMP Zeolite