Safety and control devices for gas burners and gas-burning appliances - Particular requirements - Part 11: Automatic and semi-automatic shut-off valves for operating pressure of above 500 kPa up to and including 6 300 kPa

This document specifies safety, constructional and performance requirements and testing of automatic, semi-automatic shut-off valves, and general purpose valves for gas burners, gas appliances and appliances of similar use excluding use in fuel gas infrastructures (transportation and distribution systems). This document applies to controls for use at maximum operating pressures above 500 kPa up to and including 6 300 kPa with sizes up to DN 250 for use on burners or in appliances using fuel gases, such as natural gas, manufactured gas or liquefied petroleum gas (LPG). This document applies to: - valves being mounted in gas installations; - valves directly or indirectly actuated, electrically or by mechanical means; - valves actuated by hydraulic or pneumatic means, including the pilot valves for these fluids if actuated electrically and including release valves, but not to any external electrical devices for switching the actuating energy; - valves where the flow rate is controlled by external electrical signals, either in discrete steps or proportional to the applied signal and valves fitted with closed position indicator switches; - valves to be used in appliances, but not in gas transfer systems outside appliances. This document covers type testing only. This document does not apply to valves covered under the scope of ISO 23551-1 or the ISO 23555 series.

Dispositifs de commande et de sécurité pour brûleurs à gaz et appareils à gaz — Exigences particulières — Partie 11: Robinets automatiques et semi-automatiques de sectionnement pour une pression de fonctionnement supérieure à 500 kPa et jusqu'à 6 300 kPa inclus

General Information

Status
Published
Publication Date
21-Nov-2024
ICS
27.060.20 - Gas fuel burners
Technical Committee
ISO/TC 161 - Controls and protective devices for gas and/or oil
Drafting Committee
ISO/TC 161 - Controls and protective devices for gas and/or oil
Current Stage
6060 - International Standard published
Start Date
22-Nov-2024
Due Date
20-Jan-2025
Completion Date
22-Nov-2024

Overview

ISO 23551-11:2024 specifies safety, constructional and performance requirements and type testing for automatic and semi-automatic shut-off valves and general-purpose valves used on gas burners and gas-burning appliances. It applies to valves for operating pressures above 500 kPa up to and including 6 300 kPa, with sizes up to DN 250, for fuels such as natural gas, manufactured gas and LPG. The standard is focused on controls installed on appliances (not on fuel gas transportation or distribution infrastructures) and covers electrically, mechanically, pneumatically or hydraulically actuated devices, including pilot valves when electrically actuated.

Key topics and technical requirements

ISO 23551-11 includes comprehensive requirements and test regimes. Major topics covered are:

  • Classification of controls by sealing force, pressure surge characteristics, control function and device groups.
  • Test conditions and tolerances for type testing (environmental and operational test parameters).
  • Constructional requirements including housing, moving parts, breather/vent provisions, pre-setting devices and closed position indication.
  • Materials guidance for housings, springs, seals, corrosion protection and bellows, plus hydrostatic strength considerations.
  • Connections and permitted connection types (flanges, threads, compression fittings, etc.) up to DN 250.
  • Performance tests such as leak-tightness, pressure surge resistance, rated flow rate verification, torsion and bending, and vibration.
  • Functional and durability tests: closing function, closing/sealing forces, delay/opening/closing times, endurance testing.
  • Endurance and durability criteria to confirm long-term performance under expected service conditions.
  • Electrical requirements for valves and components where electrical actuation or signal control is employed.

Note: ISO 23551-11 addresses type testing only; it does not cover every aspect of production quality control or installation practices.

Practical applications and users

This standard is intended for organizations and professionals involved in the design, manufacture, testing and specification of gas appliance controls:

  • Valve and actuator manufacturers designing shut-off devices for high-pressure gas appliances.
  • Gas appliance and burner manufacturers specifying compliant safety controls for appliances operating above 500 kPa.
  • Testing laboratories and certification bodies carrying out type testing and conformity assessment.
  • Regulatory authorities and standards writers referencing performance and safety benchmarks for appliance-level gas controls.
  • Specifiers and procurement teams selecting valves (DN 250 and below) for gas burner systems that require documented type-tested safety controls.

Related standards

  • ISO 23551 series (other parts) - related appliance control requirements; ISO 23551-1 and the ISO 23555 series are explicitly outside the scope of this part.
  • General ISO guidance on safety and control devices for gas-burning appliances.

Keywords: ISO 23551-11, shut-off valves, gas burners, gas-burning appliances, high-pressure valves, automatic shut-off, semi-automatic shut-off, DN 250, type testing, gas appliance safety.

ISO 23551-11:2024 - Safety and control devices for gas burners and gas-burning appliances — Particular requirements — Part 11: Automatic and semi-automatic shut-off valves for operating pressure of above 500 kPa up to and including 6 300 kPa Released:11/22/2024 - Page 1 previewISO 23551-11:2024 - Safety and control devices for gas burners and gas-burning appliances — Particular requirements — Part 11: Automatic and semi-automatic shut-off valves for operating pressure of above 500 kPa up to and including 6 300 kPa Released:11/22/2024 - Page 2 previewISO 23551-11:2024 - Safety and control devices for gas burners and gas-burning appliances — Particular requirements — Part 11: Automatic and semi-automatic shut-off valves for operating pressure of above 500 kPa up to and including 6 300 kPa Released:11/22/2024 - Page 3 previewISO 23551-11:2024 - Safety and control devices for gas burners and gas-burning appliances — Particular requirements — Part 11: Automatic and semi-automatic shut-off valves for operating pressure of above 500 kPa up to and including 6 300 kPa Released:11/22/2024 - Page 4 preview
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ISO 23551-11:2024 - Safety and control devices for gas burners and gas-burning appliances — Particular requirements — Part 11: Automatic and semi-automatic shut-off valves for operating pressure of above 500 kPa up to and including 6 300 kPa Released:11/22/2024

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Frequently Asked Questions

ISO 23551-11:2024 is a standard published by the International Organization for Standardization (ISO). Its full title is "Safety and control devices for gas burners and gas-burning appliances - Particular requirements - Part 11: Automatic and semi-automatic shut-off valves for operating pressure of above 500 kPa up to and including 6 300 kPa". This standard covers: This document specifies safety, constructional and performance requirements and testing of automatic, semi-automatic shut-off valves, and general purpose valves for gas burners, gas appliances and appliances of similar use excluding use in fuel gas infrastructures (transportation and distribution systems). This document applies to controls for use at maximum operating pressures above 500 kPa up to and including 6 300 kPa with sizes up to DN 250 for use on burners or in appliances using fuel gases, such as natural gas, manufactured gas or liquefied petroleum gas (LPG). This document applies to: - valves being mounted in gas installations; - valves directly or indirectly actuated, electrically or by mechanical means; - valves actuated by hydraulic or pneumatic means, including the pilot valves for these fluids if actuated electrically and including release valves, but not to any external electrical devices for switching the actuating energy; - valves where the flow rate is controlled by external electrical signals, either in discrete steps or proportional to the applied signal and valves fitted with closed position indicator switches; - valves to be used in appliances, but not in gas transfer systems outside appliances. This document covers type testing only. This document does not apply to valves covered under the scope of ISO 23551-1 or the ISO 23555 series.

This document specifies safety, constructional and performance requirements and testing of automatic, semi-automatic shut-off valves, and general purpose valves for gas burners, gas appliances and appliances of similar use excluding use in fuel gas infrastructures (transportation and distribution systems). This document applies to controls for use at maximum operating pressures above 500 kPa up to and including 6 300 kPa with sizes up to DN 250 for use on burners or in appliances using fuel gases, such as natural gas, manufactured gas or liquefied petroleum gas (LPG). This document applies to: - valves being mounted in gas installations; - valves directly or indirectly actuated, electrically or by mechanical means; - valves actuated by hydraulic or pneumatic means, including the pilot valves for these fluids if actuated electrically and including release valves, but not to any external electrical devices for switching the actuating energy; - valves where the flow rate is controlled by external electrical signals, either in discrete steps or proportional to the applied signal and valves fitted with closed position indicator switches; - valves to be used in appliances, but not in gas transfer systems outside appliances. This document covers type testing only. This document does not apply to valves covered under the scope of ISO 23551-1 or the ISO 23555 series.

ISO 23551-11:2024 is classified under the following ICS (International Classification for Standards) categories: 27.060.20 - Gas fuel burners. The ICS classification helps identify the subject area and facilitates finding related standards.

You can purchase ISO 23551-11:2024 directly from iTeh Standards. The document is available in PDF format and is delivered instantly after payment. Add the standard to your cart and complete the secure checkout process. iTeh Standards is an authorized distributor of ISO standards.

Standards Content (Sample)


International
Standard
ISO 23551-11
First edition
Safety and control devices for
2024-11
gas burners and gas-burning
appliances — Particular
requirements —
Part 11:
Automatic and semi-automatic
shut-off valves for operating
pressure of above 500 kPa up to and
including 6 300 kPa
Dispositifs de commande et de sécurité pour brûleurs à gaz et
appareils à gaz — Exigences particulières —
Partie 11: Robinets automatiques et semi-automatiques de
sectionnement pour une pression de fonctionnement supérieure à
500 kPa et jusqu'à 6 300 kPa inclus
Reference number
© ISO 2024
All rights reserved. Unless otherwise specified, or required in the context of its implementation, no part of this publication may
be reproduced or utilized otherwise in any form or by any means, electronic or mechanical, including photocopying, or posting on
the internet or an intranet, without prior written permission. Permission can be requested from either ISO at the address below
or ISO’s member body in the country of the requester.
ISO copyright office
CP 401 • Ch. de Blandonnet 8
CH-1214 Vernier, Geneva
Phone: +41 22 749 01 11
Email: copyright@iso.org
Website: www.iso.org
Published in Switzerland
ii
Contents Page
Foreword .vi
Introduction .vii
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 2
4 Classification . 3
4.1 Classes of controls .3
4.1.1 Classification based on sealing force .3
4.1.2 Classifications based on pressure surge .3
4.1.3 Classification with neither sealing force nor pressure surge .3
4.1.4 Classification of flow control valves for general purpose .3
4.2 Groups of controls .3
4.3 Types of DC supplied controls .3
4.4 Classes of control function .3
5 Test conditions and tolerances . 4
5.1 Test conditions .4
5.2 Tolerances .4
6 Construction . 4
6.1 General .4
6.2 Construction requirements.6
6.2.1 Appearance .6
6.2.2 Holes .6
6.2.3 Breather holes .6
6.2.4 Vent limiter .6
6.2.5 Screwed fastenings .6
6.2.6 Moving parts .7
6.2.7 Sealing caps .7
6.2.8 Disassembling and assembling for servicing and/or adjustment for controls .7
6.2.9 Auxiliary channels and orifices .8
6.2.10 Pre-setting device .8
6.2.11 Closed position indication .8
6.2.12 Specific construction .10
6.2.13 Flow rates of valves with modulating control .10
6.2.14 Bypass .10
6.2.15 Semi-automatic shut-off valve .10
6.2.16 Other controls assembled to a valve .11
6.2.17 Balanced valves .11
6.3 Materials .11
6.3.1 General material requirements .11
6.3.2 Housing . 12
6.3.3 Springs providing closing force and sealing force . 13
6.3.4 Resistance to corrosion and surface protection .14
6.3.5 Impregnation .14
6.3.6 Seals for glands for moving parts.14
6.3.7 Jointing .14
6.3.8 Closure members .14
6.3.9 Parts transmitting the closing force .14
6.3.10 Balanced valves .14
6.3.11 Bellows . 15
6.3.12 Hydrostatic withstand pressure test . 15
6.4 Connections .16
6.4.1 General .16
6.4.2 Connection sizes .16

iii
6.4.3 Connections types .16
6.4.4 Threads .16
6.4.5 Union joints .16
6.4.6 Flanges .17
6.4.7 Compression fittings .17
6.4.8 Flare connections .17
6.4.9 Nipples for pressure tests .17
6.4.10 Strainers . . .18
6.4.11 Gas connections by GQC .18
6.4.12 Welded connections . .18
6.5 Gas controls employing electrical components in the gas way .18
6.6 Pneumatic and hydraulic actuating mechanisms .18
7 Performance . 19
7.1 General .19
7.2 Leak-tightness . 20
7.2.1 General . 20
7.2.2 Requirements . 20
7.2.3 Test . . .21
7.2.4 Pressure surge test . 22
7.3 Torsion and bending . 22
7.3.1 General . 22
7.3.2 Torsion . 22
7.3.3 Bending moment . . 22
7.3.4 Torsion and bending tests . 22
7.4 Rated flow rate . 23
7.4.1 General . 23
7.4.2 Requirements . 23
7.4.3 Test . . . 23
7.5 Durability . 23
7.6 Functional requirements . . 23
7.6.1 Closing function .24
7.6.2 Closing force .24
7.6.3 Delay time and opening time . 25
7.6.4 Closing time . 25
7.6.5 Sealing force . 26
7.7 Endurance .27
7.7.1 Requirement .27
7.7.2 Test . . . 28
7.8 Vibration . 30
8 Electrical requirements .30
8.1 General . 30
8.2 Requirements . 30
8.3 Test . 30
8.4 Protection by enclosure . 30
8.5 Electrical components .31
8.5.1 Switches .31
8.5.2 Plug connector .31
8.5.3 Power saving circuit .31
9 Electromagnetic compatibility (EMC) . .32
9.1 Protection against environmental influences .32
9.2 Harmonics and interharmonics including mains signalling at a.c. power port, low
frequency immunity .32
9.3 Voltage dips, voltage interruptions and voltage variations in the power supply network .32
9.4 Test of influence of voltage unbalance .32
9.5 Surge immunity tests .32
9.6 Electrical fast transient/burst .32
9.7 Ring wave immunity .32

iv
9.8 Electrostatic discharge . 33
9.9 Radio-frequency electromagnetic field immunity . 33
9.10 Influence of supply frequency variations . 33
9.11 Power frequency magnetic field immunity . 33
9.12 Evaluation of compliance . 33
10 Marking, installation and operating instructions .33
10.1 Marking . 33
10.2 Installation and operating instructions . 33
10.3 Warning notice . 34
10.4 Annexes . 34
Annex A (normative) Specific regional requirements in European countries .35
Annex B (normative) Specific regional requirements in Canada and USA .36
Annex C (normative) Specific regional requirements in Japan .37
Annex D (normative) Specific regional requirements in China .38
Bibliography .39

v
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.
The procedures used to develop this document and those intended for its further maintenance are described
in the ISO/IEC Directives, Part 1. In particular, the different approval criteria needed for the different types
of ISO document should be noted. This document was drafted in accordance with the editorial rules of the
ISO/IEC Directives, Part 2 (see www.iso.org/directives).
ISO draws attention to the possibility that the implementation of this document may involve the use of (a)
patent(s). ISO takes no position concerning the evidence, validity or applicability of any claimed patent
rights in respect thereof. As of the date of publication of this document, ISO had not received notice of (a)
patent(s) which may be required to implement this document. However, implementers are cautioned that
this may not represent the latest information, which may be obtained from the patent database available at
www.iso.org/patents. ISO shall not be held responsible for identifying any or all such patent rights.
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation of the voluntary nature of standards, the meaning of ISO specific terms and expressions
related to conformity assessment, as well as information about ISO's adherence to the World Trade
Organization (WTO) principles in the Technical Barriers to Trade (TBT), see www.iso.org/iso/foreword.html.
This document was prepared by Technical Committee ISO/TC 161, Controls and protective devices for gaseous
and liquid fuels.
A list of all parts in the ISO 23551 series can be found on the ISO website.
Any feedback or questions on this document should be directed to the user’s national standards body. A
complete listing of these bodies can be found at www.iso.org/members.html.

vi
Introduction
This document is designed to be used in combination with ISO 23550. Together, they establish the full
requirements as they apply to the product covered by this document.
Where needed, this document adapts ISO 23550 by stating in the corresponding clause:
— “with the following modification”;
— “with the following addition”;
— “is replaced by the following”; or
— “is not applicable”.
In order to identify specific requirements that are particular to this document, that are not already covered
by ISO 23550, this document can contain clauses or subclauses that are additional to the structure of
ISO 23550. These subclauses are indicated by the introductory sentence: “Subclause (or Annex) specific to
this document.”
To ensure global relevance of this document, the differing requirements resulting from practical experience
and installation practices in various regions of the world have been taken into account. The variations in
basic infrastructure associated with gas controls and appliances have also been recognized, some of which
are addressed in Annexes A, B, C and D. This document intends to provide a basic framework of requirements
that recognize these differences.

vii
International Standard ISO 23551-11:2024(en)
Safety and control devices for gas burners and gas-burning
appliances — Particular requirements —
Part 11:
Automatic and semi-automatic shut-off valves for operating
pressure of above 500 kPa up to and including 6 300 kPa
1 Scope
This document specifies safety, constructional and performance requirements and testing of automatic,
semi-automatic shut-off valves, and general purpose valves for gas burners, gas appliances and appliances of
similar use excluding use in fuel gas infrastructures (transportation and distribution systems).
This document applies to controls for use at maximum operating pressures above 500 kPa up to and
including 6 300 kPa with sizes up to DN 250 for use on burners or in appliances using fuel gases, such as
natural gas, manufactured gas or liquefied petroleum gas (LPG).
This document applies to:
— valves being mounted in gas installations;
— valves directly or indirectly actuated, electrically or by mechanical means;
— valves actuated by hydraulic or pneumatic means, including the pilot valves for these fluids if actuated
electrically and including release valves, but not to any external electrical devices for switching the
actuating energy;
— valves where the flow rate is controlled by external electrical signals, either in discrete steps or
proportional to the applied signal and valves fitted with closed position indicator switches;
— valves to be used in appliances, but not in gas transfer systems outside appliances.
This document covers type testing only.
This document does not apply to valves covered under the scope of ISO 23551-1 or the ISO 23555 series.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content constitutes
requirements 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 7005-1, Pipe flanges — Part 1: Steel flanges for industrial and general service piping systems
ISO 7005-2, Metallic flanges — Part 2: Cast iron flanges
ISO 7005-3, Pipe flanges — Part 3: Copper alloy and composite flanges
ISO 9692-1, Welding and allied processes — Types of joint preparation — Part 1: Manual metal arc welding, gas-
shielded metal arc welding, gas welding, TIG welding and beam welding of steels
ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories

ISO 23550:2018, Safety and control devices for gas and/or oil burners and appliances — General requirements
ISO 23551-1:2024, Safety and control devices for gas burners and gas-burning appliances — Particular
requirements — Part 1: Automatic and semi-automatic shut-off valves
IEC 60730-1:2022, Automatic electrical controls— Part 1: General requirements
IEC 61058-1, Switch for appliances — Part 1: General requirements
IEC 60529, Degrees of Protection Provided by Enclosures (IP Code)
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 23550, ISO 23551-1 and the
following apply.
ISO and IEC maintain terminology databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https:// www .iso .org/ obp
— IEC Electropedia: available at https:// www .electropedia .org/
3.1
pilot valve
valve which controls the fluid (e.g. compressed air) supplied to the actuating mechanism
Note 1 to entry: A typical pilot and release valve (3.2) application is shown in Figure 1.
3.2
release valve
valve in the line from the pilot valve (3.1) to the actuating mechanism which closes the vent automatically
when the actuating fluid is released by the pilot valve and opens it automatically when the pilot valve is closed
Note 1 to entry: A typical pilot and release valve application is shown in Figure 1.
Key
1 control under test
2 pilot valve (normally closed)
3 release valve (normally open)
Figure 1 — Typical pilot and release valve application
3.3
design pressure
DP
pressure on which design calculations are based
Note 1 to entry: In particular, DP is the maximum pressure for which the body, its inner metallic partition walls and
some other pressure-containing parts are designed.
Note 2 to entry: According to local regulations, DP can be defined as maximum allowable pressure.

[SOURCE: ISO 23555-1:2022, 3.1.4.3 modified — Note 2 to entry has been added.]
4 Classification
4.1 Classes of controls
Shall be according to ISO 23550:2018, 4.1, with the following addition:
4.1.1 Classification based on sealing force
Subclause specific to this document.
Automatic shut-off valves where the sealing force is not decreased by the gas inlet pressure are classified
according to sealing force requirements and shall be designated according to Class A (see Tables 1, 4, 6, 7 and 8).
These valves may also have:
— modulating control function, or
— step control function/multi-stage.
4.1.2 Classifications based on pressure surge
Subclause specific to this document.
Automatic and semi-automatic valves with pressure surge requirements shall be designated according to
class C/I (see ISO 23551-1:2024 3.1.4 and Tables 1, 4, 6, 7 and 8).
4.1.3 Classification with neither sealing force nor pressure surge
Subclause specific to this document.
Automatic and semi-automatic shut-off valves without sealing force and without pressure surge
requirements shall be designated according to Class E (see Tables 1, 4, 6, 7 and 8).
4.1.4 Classification of flow control valves for general purpose
Subclause specific to this document.
General purpose valves with modulating control that do not provide a shut-off function shall be designated
according to Class D (see Tables 1, 4, 6, 7 and 8).
These valves include:
— valves with modulating control function,
— valves with step control function/multi-stage.
4.2 Groups of controls
Shall be according to ISO 23550:2018, 4.2.
4.3 Types of DC supplied controls
Shall be according to ISO 23550:2018, 4.3.
4.4 Classes of control function
Shall be according to ISO 23550:2018, 4.4.

5 Test conditions and tolerances
5.1 Test conditions
Shall be according to ISO 23550:2018, 5.1.
5.2 Tolerances
Shall be according to ISO 23550:2018, 5.2 with the following addition:
The full range of the measuring apparatus is chosen to be suitable for maximum anticipated value.
The measurement uncertainties concern individual measurements. For measurements requiring a
combination of individual measurements (e.g. efficiency measurements), lower uncertainties for the
individual measurements can be necessary to limit the total uncertainty.
Testing labs performing equipment calibration and testing measurement uncertainty are in conformity with
ISO/IEC 17025.
Therefore, where specified, the tolerances in this document apply. Otherwise, ISO/IEC 17025 applies.
6 Construction
6.1 General
Shall be according to ISO 23550:2018, 6.1, with the following addition:
If an automatic shut-off valve requires a release and/or a pilot valve to fulfil the requirements of this
document, these are considered to be part of the automatic shut-off valve and shall be specified in the
installation and operating instructions.
The combination of automatic shut-off valve and release and/or pilot valve shall conform to all requirements
of this document.
The interaction of all valves participating in the closing mechanism shall be evaluated. An appropriate risk
assessment shall be carried out.
For each pressurized compartment, the local maximum pressure shall be considered for the strength
design and for the selection of the material. It shall be ensured by mechanical means that parts for different
pressures are separated. A diaphragm shall not be used for this purpose.
Table 1 describes applicable constructions requirements and tests for the classified valves. Combination of
valve types are not excluded (e.g. automatic Class A and C/I valve). If the respective construction requirement
is used, the design shall be according to the assigned clause in Table 1, if applicable.
The marking "x” identifies the minimum requirements to be verified by the given subclauses in this
document.
Requirements without existing construction or performance properties cannot be verified and those
associated clauses are therefore not applicable.
EXAMPLE Strainers are an optional element in the design of the valve. Therefore, 6.4.10 is not always applicable
even though the assignment is given in Table 1.

Table 1 — Assignment of valve construction requirements and tests
Clause Title Shut-off valve (Classes) General
purpose
automatic automatic semi- automatic semi-
valve
automatic automatic
(Class)
A C/I C/I E E D
6.2 Construction requirements
6.2.1 Appearance x x x x x x
6.2.2 Holes x x x x x x
6.2.3 Breather holes x x x x x x
6.2.4 Vent limiter x x x x x x
6.2.5 Screwed fastenings x x x x x x
6.2.6 Moving parts x x x x x x
6.2.7 Sealing caps x x x x x x
6.2.8 Disassembling and assem- x x x x x x
bling for servicing and/or
adjustment for controls
6.2.9 Auxiliary channels and x x x x x x
orifices
6.2.10 Pre-setting device x x x x x x
6.2.11 Closed position indication x x x x x —
6.2.12 Specific construction x x x — — —
6.2.13 Flow rates of valves with x x x x x x
modulating control
6.2.14 Bypass x x x x x —
6.2.15 Semi-automatic shut-off — — x — x —
valve
6.2.16 Other controls assembled to x x x x x x
a valve
6.2.17 Balanced valves x x x x x x
6.3 Materials x x x x x X
6.4 Connections
6.4.1 General x x x x x x
6.4.2 Connection sizes x x x x x x
6.4.3 Connection types x x x x x x
6.4.4 Threads x x x x x x
6.4.5 Union joints x x x x x x
6.4.6 Flanges x x x x x x
6.4.7 Compression fittings x x x x x x
6.4.8 Flare connections x x x x x x
6.4.9 Nipples for pressure tests x x x x x x
6.4.10 Strainers x x x x x x
6.4.11 Gas connections by GQC x x x x x x
Key
x  required only if the construction is present in the design of the valve
—  no requirement even if the function is present
GQC  gas quick connector
TTabablele 1 1 ((ccoonnttiinnueuedd))
Clause Title Shut-off valve (Classes) General
purpose
automatic automatic semi- automatic semi-
valve
automatic automatic
(Class)
A C/I C/I E E D
6.4.12 Welded connections x x x x x x
6.5 Gas controls employing x x x x x x
electrical components in the
gas way
6.6 Pneumatic and hydraulic x x x x x x
actuating mechanisms
Key
x  required only if the construction is present in the design of the valve
—  no requirement even if the function is present
GQC  gas quick connector
6.2 Construction requirements
6.2.1 Appearance
Shall be according to ISO 23550:2018, 6.2.1.
6.2.2 Holes
6.2.2.1 General
Shall be according to ISO 23550:2018, 6.2.2.1.
6.2.2.2 Requirements
ISO 23550:2018, 6.2.2.2 is replaced by the following:
The wall thickness between the holes and gas ways shall take into account the design, material selected and
method of manufacturing. Holes necessary during manufacture, which connect gas ways passageways to
the atmosphere but which do not affect the operation of the control, shall be permanently sealed by metallic
means. Suitable jointing compounds may additionally be used.
6.2.2.3 Test
Shall be according to ISO 23550:2018, 6.2.2.3.
6.2.3 Breather holes
ISO 23550:2018, 6.2.3, is not applicable.
6.2.4 Vent limiter
ISO 23550:2018, 6.2.4, is not applicable.
6.2.5 Screwed fastenings
Shall be according to ISO 23550:2018, 6.2.5.

6.2.6 Moving parts
Shall be according to ISO 23550:2018, 6.2.6, with the following modification to 6.2.6.1:
6.2.6.1 General
Shall be according to ISO 23550:2018, 6.2.6.1 with the following addition:
Fastening parts (e.g. screws and nuts) shall be secured to prevent loosening under the conditions of actual use.
6.2.7 Sealing caps
Shall be according to ISO 23550:2018, 6.2.7.
6.2.8 Disassembling and assembling for servicing and/or adjustment for controls
Shall be according to ISO 23550:2018 6.2.8, with the following modification:
6.2.8.1 General
Shall be according to ISO 23550:2018, 6.2.8.1.
6.2.8.2 Requirements
Shall be according to ISO 23550:2018, 6.2.8.2.
6.2.8.3 Test
Shall be according to ISO 23550:2018, 6.2.8.3.
6.2.8.4 Factory adjustment
Subclause specific to this document.
6.2.8.4.1 General
Factory adjustment, not intended for field adjustment, shall be securely protected.
6.2.8.4.2 Requirements
Factory adjustment not intended for field adjustment shall be secured by suitable means that provides
protection against access or shall be declared as requiring such protection in the application.
Examples of "suitable means" include the following:
a) being sealed with a material suitable for the temperature range of the valve such that tampering is
apparent;
b) being accessible only with the use of special purpose tools; or
c) being accompanied by instructions requiring the equipment manufacturer to mount the valve such that
the adjustment means is inaccessible.
6.2.8.4.3 Test
Conformance is checked by inspection. Where sealing is used, inspection is carried out before and after the
endurance tests.
6.2.8.5 Maintaining of adjustments
Subclause specific to this document.
6.2.8.5.1 General
All factory adjustments shall be designed so that they are maintained in the field.
6.2.8.5.2 Requirements
Suitable means for maintaining all adjustments shall be provided.
Lock nuts or adjusting nuts held by springs or compression are acceptable unless their adjustment can be
accidentally disturbed.
6.2.8.5.3 Test
Conformance is checked by inspection.
6.2.8.6 Field adjustments
Subclause specific to this document.
6.2.8.6.1 General
Field adjustments shall be protected.
6.2.8.6.2 Requirements
Necessary field adjustments shall be capped according to 6.2.7 or otherwise protected in such a manner as
to resist tampering and prevent accidental change.
...

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ISO 23551-11:2024 provides a comprehensive framework for the safety and control devices used in gas burners and gas-burning appliances, specifically addressing automatic and semi-automatic shut-off valves operating at pressures exceeding 500 kPa and up to 6,300 kPa. This standard is essential for ensuring operational safety and reliability in gas appliances, as it outlines stringent safety, constructional, and performance requirements alongside rigorous testing protocols. One of the core strengths of ISO 23551-11:2024 is its clarity in defining the scope applicable to various controls, including those actuated by electrical, mechanical, hydraulic, or pneumatic means. The specification is designed to encompass a wide range of applications, focusing on valves used in both burners and appliances that utilize various fuel gases, including natural gas, manufactured gas, and LPG. This inclusivity ensures that manufacturers and designers are well-informed of the specific criteria that must be met for safe operation. The document emphasizes type testing, which bolsters reliability and effectiveness by establishing performance benchmarks that valves must meet before deployment in gas installations. By specifying that it does not cover valves for gas transfer systems outside appliances or those under ISO 23551-1 and the ISO 23555 series, the standard ensures that it remains focused and relevant to its intended audience, avoiding ambiguities in application. The relevance of this standard cannot be overstated, as it directly impacts safety measures in the gas industry by promoting the use of high-quality shut-off valves. By adhering to the requirements laid out in ISO 23551-11:2024, manufacturers can enhance the safety features of their gas-burning appliances, ultimately helping to prevent accidents associated with gas leaks or pressure failures. In summary, ISO 23551-11:2024 stands out due to its well-defined scope and rigorous requirements, providing vital guidance for the development and testing of automatic and semi-automatic shut-off valves in high-pressure applications. Its focus on safety and compliance positions it as a critical resource for industry stakeholders aiming to ensure the integrity and safety of gas-burning appliances.

Die Norm ISO 23551-11:2024 befasst sich mit spezifischen Sicherheits- und Kontrollvorrichtungen für Gasbrenner und gasbetriebene Geräte, insbesondere mit einer detaillierten Betrachtung automatischer und halbautomatischer Absperrventile. Der Anwendungsbereich dieser Norm ist klar definiert: Sie gilt für Einrichtungen, die bei Betriebsdrücken von über 500 kPa bis einschließlich 6 300 kPa eingesetzt werden und umfasst Ventile bis zu einer Nennweite von DN 250. Eine der Stärken der ISO 23551-11:2024 liegt in ihrer umfassenden Festlegung von Sicherheits-, Konstruktions- und Leistungsanforderungen sowie den notwendigen Prüfungen für diese Absperrventile. Durch die speifizierten Anforderungen trägt die Norm zur Sicherheit im Betrieb von Gasbrennern und ähnlichen Geräten bei, indem sie sowohl elektrische als auch mechanische Betätigungsarten für die Ventile berücksichtigt. Dies schließt das umfassende Spektrum von Ventilen ein, die direkt oder indirekt betätigt werden, wobei auch hydraulische oder pneumatische Betätigungen sowie Pilotventile erfasst werden. Ein weiterer wichtiger Aspekt dieser Norm ist die klare Abgrenzung zu anderen Normen, wie zur ISO 23551-1 und der ISO 23555-Serie, die nicht unter ihren Anwendungsbereich fallen. Dies sorgt für eine zielgerichtete Anwendung und Minimierung von Verwirrungen in der Industrie, während gleichzeitig die Einhaltung spezifischer Sicherheitsstandards gewährleistet wird. Die Relevanz der ISO 23551-11:2024 in der modernen Industrie kann kaum überschätzt werden. In einer Zeit, in der die Sicherheit von Gasinstallationen zunehmend in den Fokus rückt, bietet diese Norm essentielle Leitlinien für die Herstellung und den Einsatz von Absperrventilen. Die Norm trägt dazu bei, einheitliche Qualitätsstandards sicherzustellen, was sowohl den Herstellern als auch den Endverbrauchern zugutekommt. Letztlich unterstützt die ISO 23551-11:2024 die gesamte Branche dabei, hohe Sicherheitsstandards zu erreichen und zu wahren.

ISO 23551-11:2024は、ガスバーナーおよびガス燃焼機器に関する安全性と制御装置の標準化文書として、特に自動および半自動シャットオフ弁に焦点を当てています。この文書の範囲は、最高運転圧力500 kPaから6,300 kPaまでのガスバーナーおよび同様の用途の機器に使用される弁の安全性、構造、性能要件と試験を明確に規定しています。 この標準の強みは、さまざまなタイプのバルブに対する詳細な要件を定めている点にあります。自動および半自動シャットオフ弁の設計者や製造者は、この文書を参照することで、業界における安全基準を満たすための具体的な施工基準を理解しやすくなります。特に、DN 250までのサイズに対応しており、天然ガスや製造ガス、液化石油ガス(LPG)などの燃料ガスに使用するためのバルブについても適用されるため、幅広い用途に対応していると言えます。 ISO 23551-11:2024は、バルブが電気的または機械的に作動するものであることや、流量が外部の電気信号によって制御される場合の要件を含めることで、制御技術の進化にも対応しています。このことは、現代のガス機器の運転効率を高め、安全性を確保するために重要な要素です。 さらに、この文書は、燃料ガスインフラストラクチャ(輸送および配布システム)での使用を除外する一方で、ガス機器内でのバルブの使用に特化しているため、ユーザーや技術者にとって、特定のニーズに応じた具体的なガイドラインを提供しています。この特化性は、業界の標準化を推進する上で非常に価値が高く、さまざまなニーズに柔軟に対応できる基盤を提供します。 したがって、ISO 23551-11:2024は、ガスバーナーおよび関連機器における安全性と性能向上に寄与する非常に重要な標準であり、その実施は業界全体の品質向上に貢献するでしょう。

ISO 23551-11:2024는 가스 버너 및 가스 연소 기기에 대한 안전 및 제어 장치의 표준으로, 특히 500 kPa 이상의 작동 압력에서 6,300 kPa까지의 자동 및 반자동 차단 밸브에 대한 특정 요구사항을 규정하고 있습니다. 이 표준은 가스 버너와 유사하게 사용되는 기기에서 사용할 수 있는 차단 밸브의 안전성, 구조적 요구사항 및 성능 기준을 명확히 설정하여, 가스 장비의 안전성과 신뢰성을 보장합니다. 이 표준의 강점 중 하나는 고압 조건에서의 작동을 고려하여 특별히 설계된 밸브의 테스트와 성능 요건을 명시한 점입니다. 이는 사용자와 운영자를 위한 안전성을 강화하며, 가스 설치물에 직접 또는 간접적으로 작동하는 전기적, 기계적 방식의 밸브를 포함합니다. 또한, 유압 또는 공압에 의해 작동되는 밸브에 대한 요구사항을 규정하여 다양한 응용 분야에서의 안전성을 확보합니다. ISO 23551-11:2024는 특히 DN 250 크기까지의 밸브에 적용되며, 자연 가스, 제조된 가스, 액화 석유 가스(LPG)와 같은 연료 가스를 사용하는 기기에 적합합니다. 이는 가스 연료 사용 시 효율적인 운영을 가능하게 하며, 고압 조건에서도 안정적인 성능을 나타내도록 설계되어 있습니다. 이 문서는 또한 외부 전기 신호에 의해 흐름 속도가 제어되는 밸브에 대한 특정 기준을 규정하여, 사용자가 더 정밀한 제어가 가능하도록 합니다. 이 문서에 포함된 요구사항은 가스 장비의 안전성을 높이는 데 직접적으로 기여하며, 산업 전반에 걸쳐 필요한 표준을 제공하여 견고한 가스 시스템을 지원합니다. 그러나 제어 작동 에너지를 전환하는 외부 전기 장치에는 적용되지 않으며, ISO 23551-1이나 ISO 23555 시리즈의 적용 범위에 들어가는 밸브에는 해당되지 않습니다. 이러한 점에서 ISO 23551-11:2024는 가스 관련 장비의 안전성을 높이고, 산업의 표준화를 주도하는 중요한 문서입니다.

La norme ISO 23551-11:2024 se présente comme un document fondamental pour la sécurité et le contrôle des appareils à gaz, en particulier pour les vannes d'arrêt automatiques et semi-automatiques destinées à des pressions de fonctionnement supérieures à 500 kPa et allant jusqu'à 6 300 kPa. Son champ d'application est clairement défini, englobant les exigences de sécurité, de construction et de performance, ainsi que les protocoles de test associés. Parmi les points forts de cette norme, on note sa capacité à traiter les vannes pour des installations de gaz, qu'elles soient actionnées électriquement ou mécaniquement, et même par des moyens hydrauliques ou pneumatiques. Cela démontre une approche globale et intégrée qui garantit la sécurité des utilisateurs finaux. L'inclusion de vannes avec des indicateurs de position fermée et celles qui contrôlent le débit par des signaux électriques externes ajoute une couche supplémentaire de fonctionnalités et de sécurité. La pertinence de la norme ISO 23551-11:2024 ne peut être sous-estimée dans le contexte actuel, où la sécurité des installations de gaz est primordiale. En effet, la norme ne s'applique pas uniquement aux systèmes de vannes classiques, mais élargit son spectre aux vannes destinées à être utilisées dans des appareils similaires, renforçant ainsi la sécurité dans les divers types d'installations à gaz. En outre, le document précise qu'il ne s'applique pas aux vannes couvertes par ISO 23551-1 ou par la série ISO 23555, ce qui aide à éviter les chevauchements et garantit une clarté dans l'application des normes. Le fait que cette norme soit limitée à des tests types renforce son efficacité, permettant aux fabricants de se concentrer sur des critères de performance rigoureux avant la mise sur le marché. En résumé, la norme ISO 23551-11:2024 se positionne comme un document essentiel qui assure une réglementation strictes pour les dispositifs de sécurité dans des applications à gaz sous haute pression, réaffirmant son importance pour les secteurs concernés.