ISO 13370:2017 Thermal performance of buildings - Heat transfer via the ground - Calculation methods
- Abbreviation
- ISO 13370:2017
- Valid from
- 21/06/2017
- Information provider
- Standards New Zealand,
- Author
- International Organization for Standardization
- Information type
- ISO Standard,
Description
This standard provides methods of calculation of heat transfer coefficients and heat flow rates for building elements in thermal contact with the ground, including slab‐on‐ground floors, suspended floors and basements.
It applies to building elements, or parts of them, below a horizontal plane in the bounding walls of the building situated
- at the level of the inside floor surface, for slab‐on‐ground floors, suspended floors and unheated basements;
NOTE: In some cases, external dimension systems define the boundary at the lower surface of the floor slab.
- at the level of the external ground surface, for heated basements.
Scope
This standard includes calculation of the steady‐state part of the heat transfer (the annual average rate of heat flow) and the part due to annual periodic variations in temperature (the seasonal variations of the heat flow rate about the annual average). These seasonal variations are obtained on a monthly basis and, except for the application to dynamic simulation programmes in Annex D, ISO 13370:2017 does not apply to shorter periods of time.
NOTE: Table 1 in the Introduction shows the relative position of ISO 13370:2017 within the set of EPB standards in the context of the modular structure as set out in ISO 52000-1.
This resource is cited by:
ISO 13370:2017 Thermal performance of buildings - Heat transfer via the ground - Calculation methods
This document is CITED BY:
-
H1/AS1 (Fifth edition) (Fifth edition, unamended)
ISO 13370:2017 is cited by Acceptable Solution H1/AS1: Energy efficiency for all housing, and buildings up to 300 m². from 29/11/2021
-
H1/AS1 (Fifth edition, Amd 1) (Fifth edition, Amendment 1)
ISO 13370:2017 is cited by Acceptable Solution H1/AS1: Energy efficiency for all housing, and buildings up to 300 m². from 29/11/2021
-
H1/AS2 (First edition) (First edition, unamended)
ISO 13370:2017 is cited by Acceptable Solution H1/AS2: Energy efficiency for buildings greater than 300 m². from 29/11/2021
-
H1/AS2 (First edition, Amd 1) (First edition, Amendment 1)
ISO 13370:2017 is cited by Acceptable Solution H1/AS2: Energy efficiency for buildings greater than 300 m². from 29/11/2021
-
H1/VM1 (Fifth edition) (Fifth edition, unamended)
ISO 13370:2017 is cited by Verification Method H1/VM1: Energy efficiency for all housing, and buildings up to 300 m². from 29/11/2021
-
H1/VM1 (Fifth edition, Amd 1) (Fifth edition, Amendment 1)
ISO 13370:2017 is cited by Verification Method H1/VM1: Energy efficiency for all housing, and buildings up to 300 m². from 29/11/2021
-
H1/VM2 (First edition) (First edition, unamended)
ISO 13370:2017 is cited by Verification Method H1/VM2: Energy efficiency for buildings greater than 300 m². from 29/11/2021
-
H1/VM2 (First edition, Amd 1) (First edition, Amendment 1)
ISO 13370:2017 is cited by Verification Method H1/VM2: Energy efficiency for buildings greater than 300 m². from 29/11/2021
This resource cites:
ISO 13370:2017 Thermal performance of buildings - Heat transfer via the ground - Calculation methods
This document CITES:
ISO 13370:2017 cites ISO 10211:2007 Thermal bridges in building construction — Heat flows and surface temperatures — Detailed calculations
ISO 13370:2017 cites ISO 14683:2007 Thermal bridges in building construction — Linear thermal transmittance — Simplified methods and default values
ISO 13370:2017 cites ISO 52000-1:2017 Energy performance of buildings — Overarching EPB assessment — Part 1: General framework and procedures
ISO 13370:2017 cites ISO 6946:2007 Building components and building elements — Thermal resistance and thermal transmittance — Calculation method
ISO 13370:2017 cites ISO 7345:1987 Thermal insulation - Physical quantities and definitions