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ISO 11855-4 - BUILDING ENVIRONMENT DESIGN - DESIGN, DIMENSIONING, INSTALLATION AND CONTROL OF EMBEDDED RADIANT HEATING AND COOLING SYSTEMS - PART 4: DIMENSIONING AND CALCULATION OF THE DYNAMIC HEATING AND COOLING CAPACITY OF THERMO ACTIVE BUILDING SYSTEMS (TABS) - FIRST EDITION Organization: ISO
Date: 2012-08-01
Description: The methods apply to systems integrated into the wall, floor or ceiling construction without any open air gaps. It does not apply to panel systems with open air gaps which are not integrated into the building structure.
CEN - EN ISO 11855-4 - BUILDING ENVIRONMENT DESIGN - DESIGN, DIMENSIONING, INSTALLATION AND CONTROL OF EMBEDDED RADIANT HEATING AND COOLING SYSTEMS - PART 4: DIMENSIONING AND CALCULATION OF THE DYNAMIC HEATING AND COOLING CAPACITY OF THERMO ACTIVE BUILDING SYSTEMS (TABS) Organization: CEN
Date: 2015-08-01
Description: The methods apply to systems integrated into the wall, floor or ceiling construction without any open air gaps. It does not apply to panel systems with open air gaps which are not integrated into the building structure.
DIN EN ISO 11855-4 - BUILDING ENVIRONMENT DESIGN - DESIGN, DIMENSIONING, INSTALLATION AND CONTROL OF EMBEDDED RADIANT HEATING AND COOLING SYSTEMS - PART 4: DIMENSIONING AND CALCULATION OF THE DYNAMIC HEATING AND COOLING CAPACITY OF THERMO ACTIVE BUILDING SYSTEMS (TABS) (ISO 11855-4:2012) Organization: DIN
Date: 2016-11-01
Description: The methods apply to systems integrated into the wall, floor or ceiling construction without any open air gaps. It does not apply to panel systems with open air gaps which are not integrated into the building structure.
GMW14669 - ORGANIC COATING PERFORMANCE FOR EXTERIOR AND INTERIOR METALLIC COMPONENTS - ISSUE 4; ENGLISH Organization: GMW
Date: 2016-09-01
Description: Applicable to surface finishes used on internal body parts and components in areas of severe service operations, e.g., solar; direct sunlight exposure, and corrosion; items in contact with wet floor, such as lower seat structure.
DS/EN ISO 11855-4 - BUILDING ENVIRONMENT DESIGN - DESIGN, DIMENSIONING, INSTALLATION AND CONTROL OF EMBEDDED RADIANT HEATING AND COOLING SYSTEMS - PART 4: DIMENSIONING AND CALCULATION OF THE DYNAMIC HEATING AND COOLING CAPACITY OF THERMO ACTIVE BUILDING SYSTEMS (TABS) (ISO 11855-4:2012) Organization: DS
Date: 2015-08-14
Description: This Standard allows the calculation of peak cooling capacity of a thermo active building system (based on heat gains, such as solar gains, internal heat gains, and ventilation), and the calculation of the cooling power demand on the water side to be used to size the cooling system, as regards the chiller size, fluid flow rate, etc.
DS/EN 15377-3 - HEATING SYSTEMS IN BUILDINGS - DESIGN OF EMBEDDED WATER BASED SURFACE HEATING AND COOLING SYSTEMS - PART 3: OPTIMIZING FOR USE OF RENEWABLE ENERGY SOURCES Organization: DS
Date: 2007-11-30
Description: The method allows calculation of peak cooling capacity of a thermo-active system, based on heat gains (solar, internal loads, ventilation). This method also allows calculation of the energy demand on the water side (system) to be used for sizing of the cooling system, e.g. chiller, fluid flow rate.
NBN - EN 15377-3 - HEATING SYSTEMS IN BUILDINGS - DESIGN OF EMBEDDED WATER BASED SURFACE HEATING AND COOLING SYSTEMS - PART 3: OPTIMIZING FOR USE OF RENEWABLE ENERGY SOURCES Organization: NBN
Date: 2008-01-29
Description: The method allows calculation of peak cooling capacity of a thermo-active system, based on heat gains (solar, internal loads, ventilation).This method also allows calculation of the energy demand on the water side (system) to be used for sizing of the cooling system, e.g. chiller, fluid flow rate.
NBN - EN 15377-3 - SYSTÈMES DE CHAUFFAGE DANS LES BÂTIMENTS - CONCEPTION DES SYSTÈMES DE CHAUFFAGE ET DE REFROIDISSEMENT DE SURFACES À EAU INTÉGRÉS - PARTIE 3 : OPTIMISATION DE L'UTILISATION DES ÉNERGIES RENOUVELABLES Organization: NBN
Date: 2008-01-29
Description: The method allows calculation of peak cooling capacity of a thermo-active system, based on heat gains (solar, internal loads, ventilation).This method also allows calculation of the energy demand on the water side (system) to be used for sizing of the cooling system, e.g. chiller, fluid flow rate.
NBN - EN 15377-3 - HEATING SYSTEMS IN BUILDINGS - DESIGN OF EMBEDDED WATER BASED SURFACE HEATING AND COOLING SYSTEMS - PART 3: OPTIMIZING FOR USE OF RENEWABLE ENERGY SOURCES Organization: NBN
Date: 2008-01-29
Description: The method allows calculation of peak cooling capacity of a thermo-active system, based on heat gains (solar, internal loads, ventilation).This method also allows calculation of the energy demand on the water side (system) to be used for sizing of the cooling system, e.g. chiller, fluid flow rate.
DSF/ISO/DIS 11855-4 - BUILDING ENVIRONMENT DESIGN - DESIGN, CONSTRUCTION AND OPERATION OF RADIANT HEATING AND COOLING SYSTEMS - PART 4: DIMENSIONING AND CALCULATION OF THE DYNAMIC HEATING AND COOLING CAPACITY FOR THERMO ACTIVE BUILDING SYSTEMS (TABS) Organization: DS
Description: This Standard allows the calculation of peak cooling capacity of a thermo active building system (based on heat gains, such as solar gains, internal heat gains, and ventilation), and the calculation of the cooling power demand on the water side to be used to size the cooling system, as regards the chiller size, fluid flow rate, etc.
ASTM C1199 - STANDARD TEST METHOD FOR MEASURING THE STEADY-STATE THERMAL TRANSMITTANCE OF FENESTRATION SYSTEMS USING HOT BOX METHODS Organization: ASTM
Date: 2014-02-01
Description: This test method refers to the thermal transmittance, U of a fenestration system installed vertically in the absence of solar radiation and air leakage effects. NOTE 2—The methods described in this document may also be adapted for use in determining the thermal transmittance of sections of building wall, and roof and floor assemblies containing thermal anomalies, which are smaller than the hot box metering area.

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