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New Thermal Insulation Of Buildings Standards for the 2nd Quarter 2017

Kyle Bach

Document Center Inc. is pleased to announce that the following New Standards on Thermal Insulation Of Buildings are now available:

  • PD CEN 15316-6-1, 2017 Editio, Energy performance of buildings. Method for calculation of system energy requirements and system efficiencies. Explanation and justification of EN 15316-1, Module M3-1, M3-4, M3-9, M8-1, M8-4
  • ASTM C1373, 2011 Edition reapproved in 2017, Standard Practice for Determination of Thermal Resistance of Attic Insulation Systems Under Simulated Winter Conditions
  • ASTM C687, 2017 Edition, Standard Practice for Determination of Thermal Resistance of Loose-Fill Building Insulation
  • BS EN 15193-1, 2017 Edition, Energy performance of buildings. Energy requirements for lighting. Specifications, Module M9
  • BS EN 16783, 2017 Edition, Thermal insulation products. Product category rules (PCR) for factory made and in-situ formed products for preparing environmental product declarations
  • BS EN 16947-1, 2017 Edition, Energy Performance of Buildings. Building Management System. Module M10-12
  • ISO 10077-1, 3rd Edition, Thermal performance of windows, doors and shutters – Calculation of thermal transmittance – Part 1: General
  • ISO 10211, 2nd Edition, Thermal bridges in building construction – Heat flows and surface temperatures – Detailed calculations
  • ISO 13370, 3rd Edition, Thermal performance of buildings – Heat transfer via the ground – Calculation methods
  • ISO 13789, 3rd Edition, Thermal performance of buildings – Transmission and ventilation heat transfer coefficients – Calculation method
  • ISO 14683, 3rd Edition, Thermal bridges in building construction – Linear thermal transmittance – Simplified methods and default values
  • ISO 17772-1, 1st Edition, Energy performance of buildings – Indoor environmental quality – Part 1: Indoor environmental input parameters for the design and assessment of energy performance of buildings
  • ISO 52000-1, 1st Edition, Energy performance of buildings – Overarching EPB assessment – Part 1: General framework and procedures
  • ISO 52000-2, 1st Edition, Energy performance of buildings – Overarching EPB assessment – Part 2: Explanation and justification of ISO 52000-1
  • ISO 52003-1, 1st Edition, Energy performance of buildings – Indicators, requirements, ratings and certificates – Part 1: General aspects and application to the overall energy performance
  • ISO 52003-2, 1st Edition, Energy performance of buildings – Indicators, requirements, ratings and certificates – Part 2: Explanation and justification of ISO 52003-1
  • ISO 52010-1, 1st Edition, Energy performance of buildings – External climatic conditions – Part 1: Conversion of climatic data for energy calculations
  • ISO 52010-2, 1st Edition, Energy performance of buildings – External climatic conditions – Part 2: Explanation and justification of ISO 52010-1
  • ISO 52016-1, 1st Edition, Energy performance of buildings – Energy needs for heating and cooling, internal temperatures and sensible and latent heat loads – Part 1: Calculation procedures
  • ISO 52016-2, 1st Edition, Energy performance of buildings – Energy needs for heating and cooling, internal temperatures and sensible and latent heat loads – Part 2: Explanation and justification of ISO 52016-1 and ISO 52017-1
  • ISO 52017-1, 1st Edition, Energy performance of buildings – Sensible and latent heat loads and internal temperatures – Part 1: Generic calculation procedures
  • ISO 52018-1, 1st Edition, Energy performance of buildings – Indicators for partial EPB requirements related to thermal energy balance and fabric features – Part 1: Overview of options
  • ISO 52018-2, 1st Edition, Energy performance of buildings – Indicators for partial EPB requirements related to thermal energy balance and fabric features – Part 2: Explanation and justification of ISO 52018-1
  • ISO 52019-2, 1st Edition, Energy performance of buildings – Hygrothermal performance of building components and building elements – Part 2: Explanation and justification
  • ISO 52022-1, 1st Edition, Energy performance of buildings – Thermal, solar and daylight properties of building components and elements – Part 1: Simplified calculation method of the solar and daylight characteristics for solar protection devices combined with glazin
  • ISO 52022-2, 1st Edition, Energy performance of buildings – Thermal, solar and daylight properties of building components and elements – Part 2: Explanation and justification
  • ISO 52022-3, 1st Edition, Energy performance of buildings – Thermal, solar and daylight properties of building components and elements – Part 3: Detailed calculation method of the solar and daylight characteristics for solar protection devices combined with glazing
  • PD CEN 12831-4, 2017 Edition, Energy performance of buildings. Method for calculation of the design heat load. Explanation and justification of EN 12831-3, Module M8-2, M8-3
  • PD CEN 15193-2, 2017 Edition, Energy performance of buildings. Energy requirements for lighting. Explanation and justification of EN 15193-1, Module M9
  • PD CEN 15316-6-10, 2017 Edition, Energy performance of buildings. Method for calculation of system energy requirements and system efficiencies. Explanation and justification of EN 15316-5, Module M3-7, M8-7
  • PD CEN 15316-6-5, 2017 Edition, Energy performance of buildings. Method for calculation of system energy requirements and system efficiencies. Explanation and justification of EN 15316-4-2, Module M3-8
  • PD CEN 15378-2, 2017 Edition, Energy performance of buildings. Heating systems and DHW in buildings. Explanation and justification of EN 15378-1, Module M3-11 and M8-11
  • BS ISO 19467, 2017 Edition, Thermal performance of windows and doors. Determination of solar heat gain coefficient using solar simulator
  • ISO 10077-2, 3rd Edition, Thermal performance of windows, doors and shutters – Calculation of thermal transmittance – Part 2: Numerical method for frames
  • ISO 13786, 3rd Edition, Thermal performance of building components – Dynamic thermal characteristics – Calculation methods
  • ISO 19467, 1st Edition, Thermal performance of windows and doors – Determination of solar heat gain coefficient using solar simulator
  • ISO 6946, 3rd Edition, Building components and building elements – Thermal resistance and thermal transmittance – Calculation methods
  • PD CEN 15316-6-7, 2017 Edition, Energy performance of buildings. Method for calculation of system energy requirements and system efficiencies. Explanation and justification of EN 15316-4-4, Module M8-3-4, M8-8-4, M8-11-4
  • UNE 92181, 2017 Edition, Minimum advisable characteristics for different applications. Thermal insulation products for buildings. Factory made expanded polystyrene products (EPS).
  • ASTM-C919, 2012 Edition reapproved in 2017, Standard Practice for Use of Sealants in Acoustical Applications
  • ASTM E1477, 1998A Edition reapproved in 2017, Standard Test Method for Luminous Reflectance Factor of Acoustical Materials by Use of Integrating-Sphere Reflectometers
  • ISO 3010, 3rd Edition, Bases for design of structures – Seismic actions on structures
  • ASTM D5683, 1995 Edition reapproved in 2017, Standard Test Method for Flexibility of Roofing and Waterproofing Materials and Membranes
  • IEC 62561-3, Edition 2.0, Lightning protection system components (LPSC) – Part 3: Requirements for isolating spark gaps (ISG)   

For more standards like these, please refer to our Document Center List of Standards on Thermal Insulation Of Buildings.