SIST EN ISO 21922:2022/oprA1:2023

SLOVENSKI STANDARD
SIST EN ISO 21922:2022/oprA1:2023
01-april-2023
Hladilni sistemi in toplotne črpalke - Ventili - Zahteve, preskušanje in označevanje
- Dopolnilo A1 (ISO 21922:2021/DAM 1:2023)
Refrigerating systems and heat pumps - Valves - Requirements, testing and marking -
Amendment 1 (ISO 21922:2021/DAM 1:2023)
Kälteanlagen und Wärmepumpen - Ventile - Anforderungen, Prüfung und
Kennzeichnung - Änderung 1 (ISO 21922:2021/DAM 1:2023)
Systèmes de réfrigération et pompes à chaleur - Robinetterie - Exigences, essais et
marquage - Amendement 1 (ISO 21922:2021/DAM 1:2023)
Ta slovenski standard je istoveten z: EN ISO 21922:2021/prA1
ICS:
23.060.20 Zapirni ventili (kroglasti in Ball and plug valves
pipe)
27.080 Toplotne črpalke Heat pumps
27.200 Hladilna tehnologija Refrigerating technology
SIST EN ISO 21922:2022/oprA1:2023 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN ISO 21922:2022/oprA1:2023

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SIST EN ISO 21922:2022/oprA1:2023
DRAFT AMENDMENT
ISO 21922:2021/DAM 1
ISO/TC 86/SC 1 Secretariat: ANSI
Voting begins on: Voting terminates on:
2023-02-20 2023-05-15
Refrigerating systems and heat pumps — Valves —
Requirements, testing and marking
AMENDMENT 1
Systèmes de réfrigération et pompes à chaleur — Robinetterie — Exigences, essais et marquage
AMENDEMENT 1
ICS: 27.200; 27.080
This document is circulated as received from the committee secretariat.
THIS DOCUMENT IS A DRAFT CIRCULATED
FOR COMMENT AND APPROVAL. IT IS
ISO/CEN PARALLEL PROCESSING
THEREFORE SUBJECT TO CHANGE AND MAY
NOT BE REFERRED TO AS AN INTERNATIONAL
STANDARD UNTIL PUBLISHED AS SUCH.
IN ADDITION TO THEIR EVALUATION AS
BEING ACCEPTABLE FOR INDUSTRIAL,
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USER PURPOSES, DRAFT INTERNATIONAL
STANDARDS MAY ON OCCASION HAVE TO
BE CONSIDERED IN THE LIGHT OF THEIR
POTENTIAL TO BECOME STANDARDS TO
WHICH REFERENCE MAY BE MADE IN
Reference number
NATIONAL REGULATIONS.
ISO 21922:2021/DAM 1:2023(E)
RECIPIENTS OF THIS DRAFT ARE INVITED
TO SUBMIT, WITH THEIR COMMENTS,
NOTIFICATION OF ANY RELEVANT PATENT
RIGHTS OF WHICH THEY ARE AWARE AND TO
PROVIDE SUPPORTING DOCUMENTATION. © ISO 2023

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SIST EN ISO 21922:2022/oprA1:2023
ISO 21922:2021/DAM 1:2023(E)
DRAFT AMENDMENT
ISO 21922:2021/DAM 1
ISO/TC 86/SC 1 Secretariat: ANSI
Voting begins on: Voting terminates on:

Refrigerating systems and heat pumps — Valves —
Requirements, testing and marking
AMENDMENT 1
Systèmes de réfrigération et pompes à chaleur — Robinetterie — Exigences, essais et marquage
AMENDEMENT 1
ICS: 27.200; 27.080
This document is circulated as received from the committee secretariat.
COPYRIGHT PROTECTED DOCUMENT
THIS DOCUMENT IS A DRAFT CIRCULATED
FOR COMMENT AND APPROVAL. IT IS
© ISO 2023
ISO/CEN PARALLEL PROCESSING
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NATIONAL REGULATIONS.
Website: www.iso.org ISO 21922:2021/DAM 1:2022(E)
RECIPIENTS OF THIS DRAFT ARE INVITED
Published in Switzerland
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NOTIFICATION OF ANY RELEVANT PATENT
RIGHTS OF WHICH THEY ARE AWARE AND TO
ii
  © ISO 2023 – All rights reserved
PROVIDE SUPPORTING DOCUMENTATION. © ISO 2022

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SIST EN ISO 21922:2022/oprA1:2023
ISO 21922:2021/DAM 1:2022(E)
Refrigerating systems and heat pumps — Valves —
Requirements, testing and marking
AMENDMENT 1
In Table 1 replace variable description of K , L, and Q with:
VS M
Table 1 — List of symbols
3
K Flow coefficient of the valve m /h
VS
L Leakage percentage %
Q Valve leakage mass flow rate measured with air kg/h
M
In Table 1 replace Q with Q and insert a new variable description of Q :
V V1 V2
Table 2 — List of symbols
3
Q Valve leakage volume flow rate measured upstream with air m /h
V1
3
Q Valve leakage volume flow rate measured downstream with air m /h
V2

Replace 7.6 and Table 3 with:
7.6  Seat tightness
7.6.1  General
This clause applies to components where internal seat tightness is a design feature. The seat tightness
shall be classified according to Table 3.
The maximum leakage percentage, L, is calculated as described in 7.6.2. The maximum values of L for a
given seat tightness class are listed in Table 3.
Table 3 — Type test requirements for seat tightness
Maximum leakage percentage, Maximum leakage volume flow, Q , measured
V
Seat tightness class
a a
L downstream
Zero bubbles or equivalent measured during one
A ―
b
minute
Zero bubbles or equivalent measured during one
B ―
minute
c
C 0,002 % ―
c
D 0,01 % ―
c
E 0,025 % ―
c
F 0,05 % ―
a
For type test the manufacturer shall measure the leakage at ambient temperature covering the whole differential
pressure range. For manual valves, see Table 4 for suggested upper limits to the maximum differential pressure.
b
For safety valves the manufacturer shall measure the leakage up to 0,9 × set pressure of the valve.
c
The maximum downstream leakage volume flow corresponding to the maximum leakage percentage can be calculated
using equation (3) in clause 7.6.2.
d
For seat tightness class H, testing shall be conducted to verify the seat tightness specified in the technical literature.
1
© ISO 2022 – All rights reserved

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SIST EN ISO 21922:2022/oprA1:2023
ISO 21922:2021/DAM 1:2022(E)
TTabablele 3 3 ((ccoonnttiinnueuedd))
Maximum leakage percentage, Maximum leakage volume flow, Q , measured
V
Seat tightness class
a a
L downstream
c
G 0,1 % ―
d
H ― ―
a
For type test the manufacturer shall measure the leakage at ambient temperature covering the whole differential
pressure range. For manual valves, see Table 4 for suggested upper limits to the maximum differential pressure.
b
For safety valves the manufacturer shall measure the leakage up to 0,9 × set pressure of the valve.
c
The maximum downstream leakage volume flow corresponding to the maximum leakage percentage can be calculated
using equation (3) in clause 7.6.2.
d
For seat tightness class H, testing shall be conducted to verify the seat tightness specified in the technical literature.
The required seat tightness class depends on the intended application of the valve:
a) Valves leading to the atmosphere permanently shall be seat tightness class A.
b) Valves leading to the atmosphere during service shall be seat tightness class A or B.
c) For other valves, seat tightness classes with lower requirements are allowed.
NOTE 1 Components with several valve seats, may have several seat tightness classes.
NOTE 2 Safety valves are examples of valves where seat tightness class A is required, while most stop valves
will require seat tightness classes A or B.
For manually closed valves, when testing the seat tightness, the seat shall be closed before the test
applying the prescribed closing force.
For valves of the double seating type such as many gate, plug, and ball valves, the test pressure shall be
applied successively to each end of the closed valve and tightness to the opposite end checked.
As alternate methods for valves with independent double seating (such as double disc or split wedge
gate valves), at the option of the manufacturer, the pressure may be applied inside the bonnet (or
body) of the closed valve and each seat checked for tightness at the valve ports, or the pressure may
be applied to the valve ports and the sum of seat leakage measured at the bonnet (or body). These
alternate methods may be used at the option of the manufacturer for valves with single discs (such as
solid or flexible wedge gate valves) provided a supplementary closure member test across the disc is
performed.
For other valve types, the test pressure shall be applied across the closure member in the direction
producing the most adverse seating condition. For example, a globe valve shall be tested with pressure
under the disc. A check valve, or other valve type designed, sold, and marked as a one-way valve,
requires a closure test only in the appropriate direction. A stop check valve requires both tests.
7.6.2  Seat tightness: type test
The leakage percentage L is specified for the flow directions for which the valve is designed to shut off
the flow.
The manufacturer shall
...