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Solar Energy in Buildings Thermal Balance for Efficient Heating and Cooling

Langue : Anglais

Auteur :

Couverture de l’ouvrage Solar Energy in Buildings
Solar Energy in Buildings presents solar radiation fundamentals and their applications in buildings, supported by theoretical analysis and results of original simulation studies in solar energy availability, collection, and conversion for both active and passive use. In-depth coverage of energy balance and heat transfer in building envelopes is supported by the inclusion of calculations and case studies, while contextualizing within an integrated design approach.

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

Prof Dr Dorota Chwieduk DSc. PhD., M.Sc, Mech. Eng, Energy and Buildings is Senior Researcher and Deputy Director of the Institute of Heat Engineering at Warsaw University of Technology and President of the Polish Solar Energy Society. She is Past President of the International Solar Energy Society (ISES) – Europe, has held scientific fellowships at Munich Technical University, Germany, and is a Fellow of both the Thermodynamic and Combustion and the Physics of Building Construction Committees of the Polish Academy of Sciences. Dr. Chwieduk is Editor in Chief of “Polish Solar Energy” magazine and Vice President of the Society of Energy and Environment. She was a nominated member of the AGE – Advisory Group on Energy for the FP7 of the European Commission. Dr. Chwieduk is co-author of over 200 papers and 8 books. A member of the World Renewable Energy Network she was recipient of WREN’s 2008 Pioneer in Renewable Energy Award.
  • 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 :

Ouvrage de 382 p.

15x22.8 cm

Disponible chez l'éditeur (délai d'approvisionnement : 14 jours).

110,33 €

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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