ISO 18292:2011

INTERNATIONAL ISO
STANDARD 18292
First edition
2011-04-01

Energy performance of fenestration
systems for residential buildings —
Calculation procedure
Performance énergétique des systèmes de fenêtrage pour les
bâtiments résidentiels — Mode opératoire de calcul




Reference number
ISO 18292:2011(E)
©
ISO 2011

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ISO 18292:2011(E)
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ii © ISO 2011 – All rights reserved

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ISO 18292:2011(E)
Contents Page
Foreword .iv
Introduction.v
1 Scope.1
2 Normative references.1
3 Terms and definitions .2
4 Symbols and units.3
5 Principle .4
5.1 Introduction.4
5.2 Heating energy performance.5
5.3 Cooling energy performance .5
6 Methodology and basic equations .6
6.1 General .6
6.2 The fenestration energy performance for heating .9
6.3 The fenestration energy performance for cooling .9
6.4 The heat balance elements.10
6.5 Assessment of the solar control potential of the rated fenestration system.12
7 Climate data .13
7.1 Introduction.13
7.2 External air temperature .13
7.3 Solar radiation .13
7.4 Wind speed .13
8 Basic thermal and solar-optical fenestration properties.14
8.1 Introduction.14
8.2 Thermal transmittance, U-value .14
8.3 Total solar energy transmittance or solar factor, g-value.14
8.4 Daylight potential .14
8.5 Air infiltration (air permeability) and ventilation .15
9 Reference building .16
9.1 Introduction.16
9.2 Overview of data.17
10 Assessment report.17
Annex A (informative) Explanation of gain/loss utilization factor method used in ISO 13790 for the
fenestration system energy balance equation .18
Annex B (informative) Assessment of the solar control potential of the rated fenestration system.23
Annex C (informative) Example of the calculation of P and P using a monthly method .26
E, H,w E, C,w
Bibliography.32

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ISO 18292:2011(E)
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies
(ISO member bodies). The work of preparing International Standards is normally carried out through ISO
technical committees. Each member body interested in a subject for which a technical committee has been
established has the right to be represented on that committee. International organizations, governmental and
non-governmental, in liaison with ISO, also take part in the work. ISO collaborates closely with the
International Electrotechnical Commission (IEC) on all matters of electrotechnical standardization.
International Standards are drafted in accordance with the rules given in the ISO/IEC Directives, Part 2.
The main task of technical committees is to prepare International Standards. Draft International Standards
adopted by the technical committees are circulated to the member bodies for voting. Publication as an
International Standard requires approval by at least 75 % of the member bodies casting a vote.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. ISO shall not be held responsible for identifying any or all such patent rights.
ISO 18292 was prepared by Technical Committee ISO/TC 163, Thermal performance and energy use in the
built environment, Subcommittee SC 2, Calculation methods.
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ISO 18292:2011(E)
Introduction
This International Standard specifies a procedure for the determination of energy rating of window and door
products and other products that are installed in building envelope openings, also known as fenestration
systems. To enable the fenestration industry and their clients to utilize energy performance instead of thermal
transmittance to assess their products, there is a need for a simple, clear, accurate and transparent procedure
that enables the energy performance of these products to be assessed using national climate data and
nationally selected reference buildings.
This International Standard specifies detailed procedures for calculating the energy performance of
fenestration products. In this International Standard, the energy performance is derived from thermal
transmittance, solar gain, and air infiltration data obtained using standard procedures. Converting that value
into an energy rating for the fenestration system is the responsibility of each country's appropriate national
body. It is intended that the details of that rating system be published in a publicly available document. These
procedures require the use of reference conditions, which differ between countries and can represent
conditions other than actual. Allowing different reference conditions enables each country to determine its own
reference values in accordance with local conditions. As long as these conditions are publicly available and
the calculation is based on standardized procedures as specified in this International Standard, it is possible to
calculate the energy performance of a specific product to the desired national reference conditions.

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INTERNATIONAL STANDARD ISO 18292:2011(E)

Energy performance of fenestration systems for residential
buildings — Calculation procedure
1 Scope
This International Standard specifies a procedure for calculation of the energy performance of fenestration
systems used in residential buildings, for rating of fenestration systems, doors and skylights, including the
effects of frame, sash, glazing, and shading components. This International Standard specifies procedures for
the calculation of the heating and cooling energy use in residential buildings, internal and external climatic
conditions, and relevant building characteristics.
These procedures can accommodate all climatic conditions and installation details. It is the responsibility of
the appropriate regulatory authority to identify the clauses of this International Standard to be applied in their
area of jurisdiction and the climatic data and reference building specification(s) to be used.
2 Normative references
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
ISO 6613, Windows and door height windows — Air permeability test
ISO 7345, Thermal insulation — Physical quantities and definitions
ISO 9050, Glass in building — Determination of light transmittance, solar direct transmittance, total solar
energy transmittance, ultraviolet transmittance and related glazing factors
ISO 9288, Thermal insulation — Heat transfer by radiation — Physical quantities and definitions
ISO 10077-1, Thermal performance of windows, doors and shutters — Calculation of thermal transmittance —
Part 1: General
ISO 10077-2, Thermal performance of windows, doors and shutters — Calculation of thermal transmittance —
Part 2: Numerical method for frames
ISO 12567-1, Thermal performance of windows and doors — Determination of thermal transmittance by the
hot-box method — Part 1: Complete windows and doors
ISO 12567-2, Thermal performance of windows and doors — Determination of thermal transmittance by hot
box method — Part 2: Roof windows and other projecting windows
ISO 13790:2008, Energy performance of buildings — Calculation of energy use for space heating and cooling
ISO 15099, Thermal performance of windows, doors and shading devices — Detailed calculations
ISO 15927-1, Hygrothermal performance of buildings — Calculation and presentation of climatic data —
Part 1: Monthly means of single meteorological elements
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ISO 18292:2011(E)
ISO 15927-4, Hygrothermal performance of buildings — Calculation and presentation of climatic data —
Part 4: Hourly data for assessing the annual energy use for heating and cooling
EN 410, Glass in building — Determination of luminous and solar characteristics of glazing
EN 1026, Windows and doors — Air permeability — Test method
EN 13363-1, Solar protection devices combined with glazing — Calculation of solar and light transmittance —
Part 1: Simplified method
EN 13363-2, Solar protection devices combined with glazing — Calculation of total solar energy transmittance
and light transmittance — Part 2: Detailed calculation method
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 7345 and ISO 9288 and the
following apply.
3.1
solar heat gain
g
total solar energy transmittance (solar factor)
NOTE 1 The solar heat gain of the whole fenestration system, including glazing, frame and solar shading device, is
denoted g .
w
NOTE 2 The total solar energy transmittance is also known as the solar heat gain coefficient with the acronym SHGC.
3.2
daylight potential
DP
τ
DP
potential of a fenestration system to supply a building with daylight
NOTE Daylight potential is not incorporated into the energy performance value.
3.3
thermal transmittance
U
heat flow rate in the steady state divided by area and by the temperature difference between the surroundings
on each side of a system
[ISO 7345:1987, 2.12]
NOTE The thermal transmittance of the whole fenestration system, including glazing, frame and solar shading device,
is denoted U .
w
3.4
energy performance of a fenestration system
EP
P
E
calculated annual energy need divided by area for heating and cooling caused by the fenestration system, in
the reference building under the reference climatic conditions
NOTE This International Standard defines a separate energy performance value for heating and cooling conditions.
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ISO 18292:2011(E)
4 Symbols and units
Symbols and units used are in accordance with ISO 7345 and ISO 9288. The quantities which are specific to this
International Standard are also defined in Table 1.
Table 1 — Symbols and units
Symbol Quantity Unit
2
A area m
C effective heat capacity of a conditioned space J/K
c specific heat capacity J/(kg·K)
F factor —
g total solar energy transmittance of a building element —
H heat transfer coefficient W/K
2
h surface coefficient of heat transfer W/(m ·K)
2
I solar irradiance W/m

sol
3
L overall air infiltration rate m /s
2
P annual energy performance kWh/m
E
Q quantity of heat kWh
3
q (volume) airflow rate m /s
V
2
R thermal resistance m ·K/W
T thermodynamic temperature K
t time, period of time hours
2
U thermal transmittance W/(m ·K)
α absorption coefficient of a surface for solar radiation —
γ tilt angle °
Γ heat balance ratio —
ε emissivity of a surface for long-wave thermal radiation —
η efficiency, utilization factor —
θ Celsius temperature °C
2
κ heat capacity per area J/(m ·K)
3
ρ density kg/m
r albedo —
−8 4
2
σ Stefan-Boltzmann constant (σ = 5,67 × 10) W/(m ·K )
τ time constant h
τ daylight potential —
DP
Φ heat flow rate, thermal power W
χ point thermal transmittance W/K
Ψ linear thermal transmittance W/(m·K)
NOTE These symbols are, where possible, the same as those in ISO 13790.

In this International Standard, the energy performance values are calculated in kilowatt hours per square
metre. Users may convert these values to other units as appropriate.
The subscripts indicated in Table 2 are used.
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ISO 18292:2011(E)
Table 2 — Subscripts
avg time-average m mass-related conductance or capacitance
base base nd need
C cooling, capacity ob obstacles
C,nd cooling need, or building need for cooling or orientation
DP daylight potential p pressure
E energy pre-cool pre-cool
e external, exterior, envelope pre-heat pre-heat
g ground ref reference
gl glazing, glazed element s designated space
gn gains seas seasonal
H heating, or horizontal set setpoint
H,nd heating need, or building need for heating sh shading
hor horizontal sol solar (heat gains)
ht heat transfer tr transmission (heat transfer)
i, j, k, m, n V
dummy integers volume
int internal (heat and temperature) ve ventilation (heat transfer)
ls loss w fenestration system
m monthly, designated month Δ difference
NOTE 1 These subscripts are in line with the subscripts used in ISO 13790.
NOTE 2 Variables are also defined when they appear for the first time.

5 Principle
5.1 Introduction
Energy performance of the fenestration system is expressed through energy performance indices, P , one
E
representative of the heating season and one representative of the cooling season.
This procedure shall be followed for all fenestration tilt angles, γ.
The P , and P values are the energy needs per area of the fenestration system per year, i.e. the
E, H,w E, C,w
contribution of the fenestration system to the energy needs of the reference building for heating and cooling.
P is the fenestration heating energy performance index, expressed in kilowatt hours per square metre,
E, H,w
while P is the fenestration cooling energy performance index, expressed in kilowatt hours per square
E, C,w
metre.
Different calculation procedures are possible as given in ISO 13790:
⎯ monthly energy balance calculation method;
⎯ seasonal energy balance calculation method;
⎯ hourly energy balance calculation method.
The energy need of the reference building caused by the fenestration system is considered to be independent
of the heating, ventilation, and air conditioning system in this International Standard.
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ISO 18292:2011(E)
5.2 Heating energy performance
Monthly method:
12
Q
H,nd,w,m,i
P = (1)
Ei,H,w, ∑
A
w,i
m = 1
Seasonal method:
Q
H,nd,w,seas,i
P = (2)
Ei,H,w,
A
w,i
Hourly method:
P is the annual heating energy associated with the fenestration system, expressed in kilowatt
E, H,w,i
hours per square metre.
NOTE For the hourly method, separating cooling and heating components is a complex task, which can involve
multiple steps; see ISO 13790:2008, 15.3.1.2.
where
P is the energy performance value of the fenestration system facing orientation i for the

E, H,w,i
heating season, expressed in kilowatt hours per square metre;
i is the orientation of the fenestration system, in degrees;
A is the area of the (projected) fenestration system area, in square metres;
w,i
Q is the net heat loss through the fenestration system, for the heating mode, per month, m,
H,nd,w,m
determined in accordance with 6.2, expressed in kilowatt hours;
Q is the net heat loss through the fenestration system, for the heating mode, per season,
H,nd,w,seas
seas, determined in accordance with 6.2, expressed in kilowatt hours.
For situations where fenestration systems are placed in more than one position:
AP
∑ or,iE, H,w,or,i
i
P = (3)
E,H,w
A
∑ or,i
i
where A is the area of the fenestration, in square metres, and at orientation i, in degrees.
or,i
5.3 Cooling energy performance
Monthly method:
12
Q
C,nd,w,m,i
P = (4)
Ei,C,w, ∑
A
w,i
m=1
Seasonal method:
Q
C,nd,w,seas,i
P = (5)
Ei,C,w,
A
w,i
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ISO 18292:2011(E)
Hourly method:
P is the annual cooling energy associated with the fenestration systems, expressed in

E, C,w,i
kilowatt hours per square metre.
NOTE For the dynamic method, separating cooling and heating components is a complex task which can involve
multiple steps; see ISO 13790:2008, 15.3.1.2.
where
P is the energy performance value of the fenestration system facing orientation i for the

E, C,w,i
cooling season, expressed in kilowatt hours per square metre;
i is the orientation of the fenestration system, in degrees;
A is the area of the (projected) fenestration system area, in square metres;
w,i
Q is the net heat gain through the fenestration system, for the cooling mode, per month, m,
C,nd,w,m
determined in accordance with 6.3, expressed in kilowatt hours;
Q is the net heat gain through the fenestration system, for the cooling mode, per season,
C,nd,w,seas,i
seas, determined in accordance with 6.3, expressed in kilowatt hours.
For situations where fenestration systems are placed in more than one position:
AP
or,iE, C,w,or,i
∑
i
P = (6)
E,C,w
A
∑ or,i
i
where A is the area of the fenestration system, in square metres, at orientation i, in degrees.
or,i
When calculating P using hourly methods, it is recommended that changes in U-values due to the exposure
E
to actual environmental conditions and angle dependency of g-value (SHGC) be considered. It is not therefore
recommended that fixed values that are used to compare products for U-value and g-value (SHGC) be used
to calculate energy performance. It is necessary to use the same building assumptions and boundary
conditions for both simplified and hourly calculation methods to ensure compatibility. Hourly calculation
programmes need to comply with validation and verification tests as specified in the Bibliography.
6 Methodology and basic equations
6.1 General
6.1.1 Introduction
For the evaluation of the energy performance for fenestration systems, all data used shall be for the same tilt
angle of either a typical situation for that fenestration system or the one given in national regulations.
The procedure presented in this International Standard includes two different parts, 6.1.2 and 6.1.3, that shall
be distinguished.
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ISO 18292:2011(E)
6.1.2 Part 1: Preparation of the national or regional fenestration system energy rating procedures
The following actions shall be performed once only by the responsible bodies as part of the overall preparation
of the national or regional fenestration system energy rating procedures:
⎯ determination of what is to be included having regard to the climate and other factors for the country
or region for which the rating scheme is being set up (e.g. whether to include heating, cooling or both,
whether to define a rating for daylighting);
⎯ the calculation of the energy use of a reference building in order to obtain the building-dependent
parameters needed for the rating of the fenestration system;
⎯ the choice of representative climate and other relevant data needed as parameters in the calculation
of the energy performance of the fenestration system, including all conversions that are independent
of the specifications of the fenestration system to be rated;
⎯ establishing procedures and templates for the conversion from calculated energy performance for
heating or cooling into a classification (rating);
⎯ if appropriate, establishing procedures and templates for the conversion from the day-lighting
performance of the fenestration system (characterized by a daylight potential) into a classification
(rating).
6.1.3 Part 2: Calculation of the energy performance of a specific fenestration system
The user applying this International Standard shall calculate the energy performance of a specific fenestration
system in accordance with the steps outlined here. The energy rating can be carried out either in a specific
orientation or as a weighted average of a number of orientations.
The calculation procedure consists of four steps. Each step involves the gathering of a specific set of input
data, followed by specific “pre-processing” calculations.
Figure 1 gives a detailed schematic overview of the calculation steps and the data that are needed as input;
the main sources of the data are also given. The detailed procedures are given in 6.2 to 6.5. Only the general
principles are provided here.
Step 1: Climate. Input data: Select appropriate nationally or regionally representative climate data, such as
external temperature and the intensity of solar radiation incident on the fenestration system with given
orientation and tilt.
Step 2: Building. Input data: Select appropriate data on one (or a set of) nationally specified reference
building(s) and reference occupancy, including reference services (heating, cooling and ventilation) and their
control.
Step 3: Fenestration system. Input data: Obtain the fenestration system properties: thermal transmittance,
solar transmittance, heat transfer due to air leakage, and daylight potential.
Step 4: Calculation procedure. From the building-related data (step 2), together with the fenestration system
data (step 3) and the climate data (step 1), the gain and loss utilization factors for heating and cooling
respectively are calculated for monthly and seasonal methods. For the hourly method, the energy balance of
the reference building is calculated each time a fenestration product is being evaluated.
Finally, with all input data available and all “pre-processing” calculations done, the energy performance of the
P , and for the cooling mode, P ,
fenestration system can be calculated for the heating mode,
E, H,w E, C,w
separately. This procedure is given in Clause 5.
It may be decided at a national level to present one annual energy performance value, combining the value for
heating with the value for cooling.
NOTE The energy performance value can be used as a basis for classification, using a continuous or discrete scale
and benchmarks, e.g. in a way similar to EN 15217 for the energy performance classification for buildings.
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ISO 18292
ISO 18292:2011(E)
National Standards / Regional Standards
Energy rating of fenestration systems
Thresholds of P and  for energy rating
τ
E DP
References Energy performance of fenestration systems
Step 4: Calculation - Calculate energy performance and daylight potential of the window
P : Energy performance of window for heating
E, H,w
τ :
DP
P
: Energy performance of window for cooling
E, C,w Daylight potential
ISO 15099
Step 3: Window - Prepare thermal properties of the window
ISO 10077-1
ISO 10077-2
τ : Visible
vis
ISO 12567-1
transmittance
ISO 12567-2 of glazing
U : Thermal transmittance of window
U ,
H,w C,w
ISO 13790
g g : Total solar energy transmittance of window
,
H,w C,w
A :Visible
ISO 9050 gl
L : Air leakage rate of window
glazing area
p,ref
EN 410
F : Factor due to glazing maintenance and shading effects
sh,ob
EN 13363-1 Area of
A :
A : Area of window
w
w
window
EN 13363-2
EN 1026 γ : Tilt angle
ISO 6613
Step 2: Building - Prepare reference building data
θ θ :
,
θ θ :
int,set,H int,set,C ,
int,set,H int,set,C
Set point temperature
ISO 13790:2008 θ θ :
, Set point temperature
int,set,H int,set,C
National / η η :
Set point temperature η η : ,
,
H,gn,seas C,ls,seas
H,gn,m C,ls,m
Regional
Utilization factor
Utilization factor
standards
Default values of utilization factor
Step 1: Climate - Prepare weather data
(Hourly) (Monthly - average) (Seasonal - average)
θ External air
θ : External air :
e,m e,seas
θ : External air
temperature
e
temperature
ISO 15927-1
temperature
I : Solar
sol,m
ISO 15927-4
I : Solar irradiance I :
Solar
sol irradiance
sol,seas
ISO 13790
irradiance
v :Wind velocity
wind
Hourly method Monthly method Seasonal method Daylight potential

Figure 1 — Calculation procedure for energy performance values
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ISO 18292:2011(E)
6.2 The fenestration energy performance for heating
The fenestration energy performance for heating is the annual sum of the monthly contributions or the
seasonal weighted average for the seasonal utilization factor method, from the fenestration product to the
energy need for space heating. For the hourly method, the fenestration product energy performance for
heating is the annual sum of the hourly contribution from the fenestration product to the energy need for space
heating.
The contributions from the fenestration to the energy needs for space heating are calculated on a monthly
basis using Equation (7):
Qf=−Q η Q (7)
()
H,nd,w,m H,m H,ht,w,m H,gn,m H,gn,w,m
and on a seasonal basis using Equation (8):
Qf=−Q η Q
()
H,nd,w,seas H,seas H,ht,w,seas H,gn,seas H,gn,w,seas
(8)
where
Q is the net heat los
...