ISO 11855-3:2021/Amd 1:2023

INTERNATIONAL ISO
STANDARD 11855-3
Second edition
2021-08
AMENDMENT 1
2023-10
Building environment design —
Embedded radiant heating and cooling
systems —
Part 3:
Design and dimensioning
AMENDMENT 1
Conception de l'environnement des bâtiments — Systèmes intégrés de
chauffage et de refroidissement par rayonnement —
Partie 3: Conception et dimensionnement
AMENDEMENT 1
Reference number
ISO 11855-3:2021/Amd.1:2023(E)
ISO 11855-3:2021/Amd.1:2023(E)
© ISO 2023
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ii
ISO 11855-3:2021/Amd.1:2023(E)
Foreword
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This document was prepared by Technical Committee ISO/TC 205, Building environment design, in
collaboration with the European Committee for Standardization (CEN) Technical Committee CEN/TC
228, Heating systems and water based cooling systems in buildings, in accordance with the Agreement on
technical cooperation between ISO and CEN (Vienna Agreement).
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iii
ISO 11855-3:2021/Amd.1:2023(E)
Building environment design — Embedded radiant heating
and cooling systems —
Part 3:
Design and dimensioning
AMENDMENT 1
5.1.4
Modify to the following:
The field of characteristic curves of a floor heating system with a specific pipe spacing W shall at least
contain the characteristic curves for values of the thermal resistance of surface covering R = 0,
λ,B
R = 0,05, R = 0,10 and R = 0,15 (m K/W), in accordance with ISO 11855-2 (see Figure 1). In order
λ,B λ,B λ,B
to apply values of R > 0,15 (m K/W), it is possible only when the values are verified.
λ,B
5.1.5 Figure 1
Modify to the following:
ISO 11855-3:2021/Amd.1:2023(E)
Key
X Δθ K
H
Y q W/m
1 limit curves
2 performance characteristic curves
a
Peripheral area.
b
Occupied area.
Figure 1 — Field of characteristic curves, including limit curves for floor heating, for constant
pipe spacing
5.1.6
Modify to the following:
In order to limit the heat flow through the floor towards the space below, the required back-side
thermal resistance of the insulating layer R shall be specified in the design to be not lower than the
λ,ins
value in ISO 11855-5:2021, 5.1.2.3.2.
For systems which have a flat insulating layer (system types I, II and IV in ISO 11855-1), the back-side
thermal resistance of the insulating layer R is calculated by Formula (7) where there is no stud
λ,ins
and the effective thickness of thermal insulating layer s is identical to the thickness of the thermal
ins
insulating panel and the effective thermal conductivity of the thermal insulation layer λ is calculated
ins
by Formula (8) where there are studs.
s
ins
R = (7)
λ,ins
λ
ins
ISO 11855-3:2021/Amd.1:2023(E)
ll−
l
pws
ws
λλ= +λ (8)
insi ws
l l
ps ps
ISO 11855-3:2021/Amd.1:2023(E)
where
λ is thermal conductivity of the thermal insulation layer between the studs;
i
λ is thermal conductivity of the stud;
ws
l is the distance between the studs (see Figure 2);
ps
l is the thickness of the stud (see Figure 2).
ws
Depending on the construction of the floor heating system, the effective thickness of thermal insulating
layer s and effective thermal conductivity of the thermal insulation layer λ are determined
ins ins
differently.
For floor heati
...