This document specifies principles and requirements and provides guidance at the project level for the
quantification, monitoring and reporting of activities intended to cause greenhouse gas (GHG) emission
reductions or removal enhancements. It includes requirements for planning a GHG project, identifying
and selecting GHG sources, sinks and reservoirs (SSRs) relevant to the project and baseline scenario,
monitoring, quantifying, documenting and reporting GHG project performance and managing data
quality.
The ISO 14060 family of standards is GHG programme neutral. If a GHG programme is applicable, the
requirements of that GHG programme are additional to the requirements of the ISO 14060 family of
standards.

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This document specifies principles and requirements at the organization level for the quantification
and reporting of greenhouse gas (GHG) emissions and removals. It includes requirements for the design,
development, management, reporting and verification of an organization’s GHG inventory.
The ISO 14064 series is GHG programme neutral. If a GHG programme is applicable, requirements of
that GHG programme are additional to the requirements of the ISO 14064 series.

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This document specifies principles, requirements and guidelines for the quantification and reporting
of the carbon footprint of a product (CFP), in a manner consistent with International Standards on life
cycle assessment (LCA) (ISO 14040 and ISO 14044).
Requirements and guidelines for the quantification of a partial CFP are also specified.
This document is applicable to CFP studies, the results of which provide the basis for different
applications (see Clause 4).
This document addresses only a single impact category: climate change. Carbon offsetting and
communication of CFP or partial CFP information are outside the scope of this document.
This document does not assess any social or economic aspects or impacts, or any other environmental
aspects and related impacts potentially arising from the life cycle of a product.

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This document provides the method of calculation of the thermal resistance and thermal transmittance
of building components and building elements, excluding doors, windows and other glazed units,
curtain walling, components which involve heat transfer to the ground, and components through which
air is designed to permeate.
The calculation method is based on the appropriate design thermal conductivities or design thermal
resistances of the materials and products for the application concerned.
The method applies to components and elements consisting of thermally homogeneous layers (which
can include air layers).
This document also provides an approximate method that can be used for elements containing
inhomogeneous layers, including the effect of metal fasteners, by means of a correction term given in
Annex F. Other cases where insulation is bridged by metal are outside the scope of this document.
NOTE Table 1 in the Introduction shows the relative position of this document within the set of EPB
standards in the context of the modular structure as set out in ISO 52000-1.

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This document specifies methods for the calculation of the thermal transmittance of windows and
pedestrian doors consisting of glazed and/or opaque panels fitted in a frame, with and without shutters.
This document allows for
— different types of glazing (glass or plastic; single or multiple glazing; with or without low emissivity
coatings, and with spaces filled with air or other gases),
— opaque panels within the window or door,
— various types of frames (wood, plastic, metallic with and without thermal barrier, metallic with
pinpoint metallic connections or any combination of materials), and
— where appropriate, the additional thermal resistance introduced by different types of closed shutter
or external blind, depending on their air permeability.
The thermal transmittance of roof windows and other projecting windows can be calculated according
to this document, provided that the thermal transmittance of their frame sections is determined by
measurement or by numerical calculation.
Default values for glazing, frames and shutters are given in the annexes. Thermal bridge effects at the
rebate or joint between the window or door frame and the rest of the building envelope are excluded
from the calculation.
The calculation does not include
— effects of solar radiation (see standards under M2-8),
— heat transfer caused by air leakage (see standards under M2-6),
— calculation of condensation,
— ventilation of air spaces in double and coupled windows, and
— surrounding parts of an oriel window.
The document is not applicable to
— curtain walls and other structural glazing (see other standards under M2-5), and
— industrial, commercial and garage doors.
NOTE Table 1 in the Introduction shows the relative position of this document within the set of EPB
standards in the context of the modular structure as set out in ISO 52000-1.

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Revision of EN ISO 12631:2012
This International Standard specifies a method for calculating the thermal transmittance of curtain walls consisting of glazed and/or opaque panels fitted in, or connected to, frames.
The calculation includes:
- different types of glazing, e.g. glass or plastic; single or multiple glazing; with or without low emissivity coating; with cavities filled with air or other gases;
- frames (of any material) with or without thermal breaks;
- different types of opaque panels clad with metal, glass, ceramics or any other material.
Thermal bridge effects at the rebate or connection between the glazed area, the frame area and the panel area are included in the calculation.
The calculation does not include:
- effects of solar radiation;
- heat transfer caused by air leakage;
- calculation of condensation;
- effect of shutters;
- additional heat transfer at the corners and edges of the curtain walling;
- connections to the main building structure nor through fixing lugs;
- curtain wall systems with integrated heating.
No change to the scope is expected. There will editorial revision (new structure) in the context of Mandate M/480

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