Low temperature heating and high temperature cooling : embedded water based surface heating and cooling systems /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Babiak, Jan (Autor), Olesen, B. W. (Bjarne W.) (Autor), Petrás̆, Dus̆an (Autor)
Autor Corporativo: Federation of European Heating and Airconditioning Associations
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Brussels : Federation of European Heating, Ventilation and Air Conditioning Associations, [2013]
Edición:3rd, revised edition.
Colección:REHVA guidebook ; no. 7.
Temas:
Hydronics.
Radiant heating.
Air conditioning.
Air Conditioning
Hydronique.
Chauffage par rayonnement.
Climatisation.
air conditioning.
Air conditioning
Hydronics
Radiant heating
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Terminology, Symbols and Units. 1.1 Terms and Definitions
  • 1.2 Symbols and Units 2. Basic Principles of Radiant Surface Heating and Cooling. 2.1 Heat Transfer
  • 2.2 Principles of Radiant Heat Exchange 3. Indoor Environmental Conditions. 3.1 Thermal Environment
  • 3.2 IAQ and Surface Heating and Cooling Systems
  • 3.3 Acoustic Comfort and Noise 4. System Types and Estimation of Heating/Cooling Capacity. 4.0 Heat Exchange Coefficient between Surface and Space
  • 4.1 Radiant Heating and Cooling Panels
  • 4.2 Embedded Surface Heating and Cooling Systems
  • 4.3 Thermally Active Building Systems (TABS)
  • 4.4 Phase Change Materials (PCMs) 5. Control and Operation. 5.1 General Description, Classification
  • 5.2 Radiant Heating System Controls
  • 5.3 Radiant Cooling System Controls
  • 5.4 Control of TABS
  • 5.5 Operation Regarding the Economic Aspects
  • 5.6 Energy Use in Transient Environment with Alternative Temperature Control Strategy 6. Energy Sources. 6.1 Energy Source for Heating
  • 6.2 Energy Source for Cooling
  • 6.3 Low Exergy Concept for Heating and Cooling of Buildings
  • 6.4 Heat Pumps 7. Installation. View Section,7.1 Installation of Type A-D, G
  • 7.2 Installation of TABS 8. Safety. 8.1 Durability of the System
  • 8.2 Indoor Environment Impact 9. Application of Systems in Buildings. 9.1 Residential Buildings
  • 9.2 Offices
  • 9.3 Education Facilities
  • 9.4 Sport Facilities
  • 9.5 Industrial Buildings
  • 9.6 Museums
  • 9.7 Other Public Buildings
  • 9.8 System Design Procedure (Flow Chart) 10. Design Tools. 10.1 Availability of Simulated Performances
  • 10.2 Tools for Steady-State Analyses
  • 10.3 Tools for Dynamic Analyses
  • 10.4 Computer Analyses of TABS (Example)
  • 10.5 Computer FEM Analyse of TABS
  • 10.6 Computer FEM Analyse of the Effective Thickness of a Thermally-Active Concrete Slab

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