Solar Energy in Buildings Thermal Balance for Efficient Heating and Cooling
Auteur : Chwieduk Dorota
Chapter 1 - Solar Radiation – Fundamentals
Chapter 2 - Availability of Solar Radiation on the Earth
Chapter 3 - Shaping Building Envelope with Regard to Incident Solar Radiation
Chapter 4 - Photothermal Conversion in A Building
Chapter 5 - Passive Utilization of Solar Energy In A Building
Chapter 6 - Energy Balance of A Building With Regard To Solar Radiation Exposure
Chapter 7 - Active Solar Systems in Buildings
Chapter 8 - Buildings "Aware" of Solar Energy Impact
- Explains the best uses of cutting-edge advances such as concentrated solar thermal, thermoelectric and polymetric materials
- Covers active and passive solar collection and conversion systems
- Provides energy balance calculations and case studies deriving from real installations connect theory and practice
Date de parution : 08-2014
Ouvrage de 382 p.
15x22.8 cm
Thèmes de Solar Energy in Buildings :
Mots-clés :
Absorbing surface; Absorption; reflection; transmission of solar radiation; Auxiliary heating; Buffer spaces; Building as an energy system; Building envelope as energy system; Classification of solar heating; Comparison of isotropic and anisotropic diffuse radiation models; Direct solar gain systems; Dynamics of a building; Energy balance; Energy balance of a building; Energy balance of solar energy receiver; Energy flow through glazing; Energy-conscious buildings; Fundamentals of radiation processes; Glazing technologies; Greenhouse effect; Heat storage with thermal stratification; Heat transfer between solar receiver and surroundings; Heat transfer modeling; Heat transfer through opaque walls and roofs; Indirect solar gain system; Internal photovoltaic effect; Key solar energy technologies; Mathematical modeling of heat transfer phenomena; Measurement of solar radiation; Nearly zero-energy buildings; Operation of PV systems in buildings; Overheating of rooms; Passive solar systems; Phase-change materials; Photothermal energy conversion; Photovoltaics in buildings; Recommendations for designing building envelopes and interior; Scattering and absorption of solar radiation; Selective surface; Shading phenomena; Shaping building envelope; Solar absorbers; Solar active heating systems; Solar buildings; Solar collectors; Solar cooling; Solar energy impact on building energy balance; Solar energy in buildings; Solar energy influence on heating and cooling load; Solar energy terminology; Solar irradiation on a tilted surface; Solar radiation availability; Solar radiation fundamentals; Solar radiation models; Sorption cooling technologies coupled with solar collectors; South extended curved facades; Spectrum of solar radiation; Spherical geometry of the earth-sun system; Sun charts; Sustainable energy buildings; The sky temperature; Thermal efficiency of solar collectors; Thermal resistance method; Transparent cover; Transparent insulation