AS 2030.1—2009 Australian Standard ® Gas cylinders Part 1: General requirements AS 2030.1—2009 Accessed by BURRUP FERTILIZERS PTY LTD on 03 May 2010
AS 2030.1—2009
Australian Standard®
Gas cylinders
Part 1: General requirements
AS
20
30
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20
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This Australian Standard® was prepared by Committee ME-002, Gas Cylinders. It was approved on behalf of the Council of Standards Australia on 16 December 2008. This Standard was published on 28 January 2009.
The following are represented on Committee ME-002:
• Australasian Institute of Engineer Surveyors • Australia New Zealand Industrial Gas Association • Australian Chamber of Commerce and Industry • Australian Gas Association • Australian Industry Group • Australian Steel Association • Department of the Premier and Cabinet, SafeWork SA • Fire Protection Association of Australia • International Association for Natural Gas Vehicles • LPG Australia • Materials Australia • Pressure Equipment Association • Victorian WorkCover Authority • Welding Technology Institute of Australia • WorkCover New South Wales
This Standard was issued in draft form for comment as DR 08054. Standards Australia wishes to acknowledge the participation of the expert individuals that contributed to the development of this Standard through their representation on the Committee and through the public comment period.
Keeping Standards up-to-date Australian Standards® are living documents that reflect progress in science, technology and systems. To maintain their currency, all Standards are periodically reviewed, and new editions are published. Between editions, amendments may be issued. Standards may also be withdrawn. It is important that readers assure themselves they are using a current Standard, which should include any amendments that may have been published since the Standard was published. Detailed information about Australian Standards, drafts, amendments and new projects can be found by visiting www.standards.org.au Standards Australia welcomes suggestions for improvements, and encourages readers to notify us immediately of any apparent inaccuracies or ambiguities. Contact us via email at [email protected], or write to Standards Australia, GPO Box 476, Sydney, NSW 2001.
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AS 2030.1—2009
Australian Standard®
Gas cylinders
Part 1: General requirements
Originated as part of AS CB4—1931. Previous edition part of AS 2030.1—1999. Revised in part and designated as AS 2030.1—2009.
COPYRIGHT
© Standards Australia
All rights are reserved. No part of this work may be reproduced or copied in any form or by
any means, electronic or mechanical, including photocopying, without the written
permission of the publisher.
Published by Standards Australia GPO Box 476, Sydney, NSW 2001, Australia
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AS 2030.1—2009 2
PREFACE
This Standard was prepared by the Australian members of Joint Australia/New Zealand
Standards Committee ME-002, Gas Cylinders, to supersede (in part) AS 2030.1—1999, The
verification, filling, inspection, testing and maintenance of cylinders for the storage and
transport of compressed gases, Part 1: Cylinders for compressed gases other than
acetylene. After consultation with stakeholders in both countries, Standards Australia and
Standards New Zealand decided to develop this Standard as an Australian Standard rather
than an Australian/New Zealand Standard.
This edition introduces the following changes:
(a) The main title of the AS 2030 series has been changed and simplified to more
accurately reflect the scope of the Standard.
(b) To clarify the application of the AS 2030 series, the scope of the previous edition of
AS 2030.1 has been divided between this Standard (AS 2030.1) and a new Standard,
AS 2030.5. This edition of AS 2030.1 essentially contains Clauses 1 to 4 and 10 from
the previous edition.
AS 2030.1 applies to all gas cylinders, containing requirements for design,
manufacture and inspection (including conformity assessment), requirements to be
met prior to the first fill and other issues applicable to all cylinders.
AS 2030.5 applies to refillable cylinders (except for acetylene, which remains in
AS 2030.2), and contains additional requirements for filling, inspection (periodic and
non-periodic) and other issues related to refillable cylinders.
(c) Many terms have been re-defined to harmonize with the terminology of the
Australian Code for the Transport of Dangerous Goods by Road and Rail (ADG
Code), which in turn takes its definitions from UN Model Regulations on the
Transport of Dangerous Goods.
Of necessity, some terms have definitions that are not the same as the ADG Code.
Of these the most significant are the following:
(i) This Standard retains the generic term ‘gas cylinder’. The corresponding ADG
Code term ‘transportable pressure receptacle’ is generally equivalent to a gas
cylinder as defined in this Standard, except that a transportable pressure
receptacle may include certain items which are built to a general pressure vessel
code, whereas such items are specifically excluded from the scope of this
Standard.
(ii) This Standard also retains the generic term ‘welded gas cylinder’, rather than
the ADG Code term ‘pressure drum’, because ‘pressure drum’ may include
general pressure vessels.
Appendix C provides a comparison of the definitions used in this Standard,
AS 2030.1—1999 and the ADG Code.
Note that some gases formerly classified as compressed (permanent) are now
classified as high pressure liquefied gases.
(d) Clause 4 from the previous edition has been expanded and clarified to address in
more detail cylinder design and manufacture, manufacturing and inspection, filling
for the first time in Australia, and periodic inspection. Requirements for inspection
bodies now are given, as well as guidance on assessing the competence of design
verifiers.
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3 AS 2030.1—2009
(e) Requirements for certified gas cylinder test stations (set out in AS 2337.1) have been
clarified and some associated terminology has been updated to reflect current issues.
The terms ‘normative’ and ‘informative’ have been used in this Standard to define the
application of the appendix to which they apply. A ‘normative’ appendix is an integral part
of a Standard, whereas an ‘informative’ appendix is only for information and guidance.
IT SHOULD BE NOTED THAT COMPLIANCE WITH THIS STANDARD MAY
NOT NECESSARILY FULFILL ALL LEGAL OBLIGATIONS.
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AS 2030.1—2009 4
CONTENTS
Page
FOREWORD.............................................................................................................................. 5
1 SCOPE........................................................................................................................ 6
2 REFERENCED DOCUMENTS.................................................................................. 6
3 DEFINITIONS............................................................................................................ 6
4 CYLINDER DESIGN AND MANUFACTURE ....................................................... 11
5 CYLINDER MANUFACTURING AND INSPECTION .......................................... 12
6 ADDITIONAL REQUIREMENTS PRIOR TO FILLING FOR THE FIRST TIME
IN AUSTRALIA ...................................................................................................... 14
7 PERIODIC INSPECTION AND TESTING.............................................................. 14
8 CARE AND HANDLING......................................................................................... 15
APPENDICES
A LIST OF REFERENCED DOCUMENTS ................................................................. 16
B DESIGN AND MANUFACTURE OF FOREIGN CYLINDERS IMPORTED FOR
FILLING AND IMMEDIATE EXPORT, OR IMPORTED FULL FOR USE AND
EXPORTED FOR RE-FILLING ............................................................................... 18
C COMPARISON OF DEFINED TERMS BETWEEN THIS STANDARD,
AS 2030.1—1999 AND THE ADG CODE ............................................................... 20
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5 AS 2030.1—2009
FOREWORD
This revision of AS 2030 continues a tradition of more than 75 years, since the original
release of AS CB4—1931, of setting out technical requirements for the design, type testing,
verification, manufacturing, inspection, documentation and filling of gas cylinders.
The Standard reflects the considerable body of experience accumulated over the years by
the compressed gas industry and codified by the Australian members of Standards Australia
Committee ME-002, Gas Cylinders. Together with its many subordinate standards,
especially AS 2337.1—2004, Gas cylinder test stations, Part 1: General requirements,
inspection and tests—Gas cylinders, AS 2030 has specified and documented a voluntary
technical working model for gas cylinders in Australia.
Over this period, the regulatory environment for gas cylinders has evolved considerably, as
has the relationship between regulations and this Standard. The most significant current
regulations are probably the National Standard for Plant [NOHSC:1010(1994)], the
Australian Code for the Transport of Dangerous Goods by Road and Rail (ADG Code), and
the local regulations which implement these in the various states and territories.
These regulations and codes may refer to AS 2030 for technical specifications and details.
Despite these references, AS 2030 remains a technical standard limited to setting out
specifications, test methods and in general providing a technical model for gas cylinders
requirements.
The regulations and codes specify requirements which may be covered partially or not at all
in AS 2030. Conversely, not all the AS 2030 requirements may lead to action by the
regulatory authorities. This applies particularly to the requirements for the manufacture and
manufacturing inspection of gas cylinders outside Australia.
Hence, users of AS 2030 should be fully aware that implementation of this Standard’s
specifications and guidelines is totally outside its jurisdiction, and they need to refer to the
relevant regulations and codes to determine their responsibilities and obligations.
It cannot be emphasized too strongly that compliance with this Standard may not
necessarily fulfil all legal obligations.
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AS 2030.1—2009 6
© Standards Australia www.standards.org.au
STANDARDS AUSTRALIA
Australian Standard
Gas cylinders
Part 1: General requirements
1 SCOPE
This Standard specifies requirements for the design, verification and manufacture of all gas
cylinders for the storage and transport of compressed, dissolved and liquefied gases, of
water capacity ranging from 0.1 kg to 3000 kg.
AS 2030.2 sets out additional requirements for compressed dissolved acetylene.
NOTE: Designation AS 2030.3 is currently not in use.
AS 2030.4 sets out additional requirements for closed cryogenic receptacles (formerly
called insulated welded cylinders).
AS 2030.5 sets out additional requirements for the filling, inspection and testing of
refillable gas cylinders, except cylinders for dissolved acetylene and closed cryogenic
receptacles.
This Standard does not apply to:
(a) Cylinders forming part of aircraft equipment and used solely in aircraft other than as
a reference made in a direction pursuant to the Civil Aviation Regulations.
(b) Aerosol containers and gas cartridges.
(c) Non-refillable cylinders.
The requirements for gas cylinders in fire extinguisher systems and fire extinguishers, apply
only where suitable requirements are not given in another Australian Standard.
NOTES:
1 The term ‘cylinder’ is used interchangeably with ‘gas cylinder’ in this Standard.
2 Whilst this Standard is written for application to gas cylinders, some of its requirements are
referenced by Standards related to pressure vessels (e.g. automotive fuel vessels for LP Gas).
2 REFERENCED DOCUMENTS
A list with titles of the documents referred to in this Standard is given in Appendix A.
3 DEFINITIONS
For the purpose of this Standard and all parts of AS 2030, the definitions below apply.
3.1 Aerosol container
Non-refillable container meeting the requirements of AS 2278 or an equivalent foreign
Standard.
3.2 Bundle
An assembly of cylinders, each of water capacity less than 150 kg, fastened together and
interconnected by a manifold and intended to be transported as a single unit.
NOTES:
1 Such assemblies were previously referred to as a ‘manifold pack’.
2 Limits to the water capacity for the transport of a bundle may apply under the ADG Code.
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3.3 Certification body
An organization which grants certificates of conformance to gas cylinder test stations in
accordance with AS 2337.
NOTE: AS 2337.1—2004 uses the term ‘certification organization’ to describe a body which
certifies gas cylinder test stations.
3.4 Competent person
A person who, through training, qualification or practical experience, or a combination of
these, has acquired the knowledge and skill to undertake the task.
3.5 Cylinder neck thread
Tapered or parallel axial hole in the cylinder neck, with a thread formed on its internal
surface.
3.6 Design registration number
A number issued by an Australian regulatory authority which confirms that a cylinder
design has been registered with that authority.
NOTE: Registration requirements vary from state to state, and regulatory authorities may use
differing terms for similar evidence of design registration.
3.7 Design verification
Confirmation, by objective examination of relevant evidence, that a cylinder design meets
the specified requirements.
3.8 Filler
The organization or individual responsible for filling the cylinder.
3.9 Full cylinder
A cylinder which has been filled with the maximum quantity of gas as specified by
AS 2030.5.
3.10 Gas definitions
3.10.1 Gas
A gas is a substance which—
(a) has a vapour pressure greater than 300 kPa; or
(b) is completely gaseous at 20°C at a standard pressure of 101.3 kPa.
3.10.2 Compressed gas
A gas which, when packaged under pressure, is entirely gaseous at −50°C.
This category includes all gases with a critical temperature less than or equal to −50°C.
NOTE: This definition will include some gases which were formerly classed as ‘permanent gas’
in previous editions of this Standard.
3.10.3 Dry gas
A gas having a dewpoint, at a pressure of 101.3 kPa absolute, of less than −40°C.
NOTES:
1 A dewpoint of −40°C is equivalent to a level of 120 ppm v/v at 101.3 kPa, and for
compressed air to 100 mg H2O/m3 of air.
2 ‘Dry’ by this definition does not guarantee that moisture will not condense from a dry gas in a
cylinder at very high filling pressures.
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3.10.4 Flammable gas
A gas which will ignite in air at 20°C and a standard pressure of 101.3 kPa absolute.
NOTES:
1 See ISO 10156 for methods to determine the flammability of gas and gas mixtures.
2 AS 2473.2 allows the use of flammable gas valve outlets as alternate connections for
non-flammable, non-toxic and less oxidising than air gas mixtures, where the flammable
component has been intentionally added. Regulatory bodies might adopt similar principles.
3.10.5 Inert gas
A gas which is non-flammable, non-toxic, non-oxidizing, and is resistant to chemical action
under normally encountered conditions.
3.10.6 Liquefied gas
A gas with which when packaged under pressure for transport is partially liquid at
temperatures above –50°C.
(a) High pressure liquefied gas
A liquefied gas with critical temperature between −50°C and +65°C.
(b) Low pressure liquefied gas
A liquefied gas with critical temperature above +65°C.
3.10.7 Liquefied petroleum gas (LP Gas)
A gas which is composed predominantly of any of the following hydrocarbons or mixtures
of all or any of them: propane (C3H8), propylene (C3H6), butane (C4H10), and butylenes
(C4H8).
NOTE: A common alternative term is LPG.
3.10.8 Natural gas
A hydrocarbon gas composed predominantly of methane.
3.10.9 Oxidizing gas
A gas which gives up oxygen readily, removes hydrogen from a compound, or readily
accepts electrons.
3.10.10 Toxic gas
A gas that is known to be—
(a) so toxic or corrosive to humans as to pose a hazard to health; or
(b) is presumed to be toxic or corrosive to humans because it has an LC 50 value equal to
or less than 5000 mL/m3 (ppm).
NOTE: AS 2473.2 allows the use of toxic gas valve outlets as alternate connections for
non-flammable, non-toxic and less oxidizing than air gas mixtures, where a toxic component has
been intentionally added. Regulatory bodies might adopt similar principles.
3.11 Gas cartridge
Non-refillable container, filled once only with a gas or mixture of gases for fuelling of
portable gas appliances which burn the gas or gases in use.
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3.12 Gas cylinder definitions
3.12.1 Gas cylinder
A rigid transportable pressure receptacle, of water capacity between 0.1 kg and 3000 kg,
without openings or integral attachments on the shell other than at the ends, designed for
the storage and transport of gases under pressure.
NOTE: A pressure receptacle described in the ADG Code as a pressure drum, or closed cryogenic
receptacle, is recognized as a gas cylinder provided that it complies with the definition above, and
meets all the requirements of Clause 4 and 5.
3.12.2 Tube
Seamless gas cylinder of water capacity greater than 150 kg, and less than 3000 kg.
3.12.3 Welded gas cylinder
A gas cylinder with one or more welded seams of water capacity of not more than 1000 kg.
NOTE: Certain design codes for welded cylinders have lower water capacity limits, and there
may be different statutory requirements for transportation of cylinders of water capacity greater
than 500 kg.
3.12.4 Closed cryogenic receptacle
Thermally insulated welded gas cylinder for refrigerated liquefied gases of water capacity
of not more than 1000 kg.
3.13 Mass
3.13.1 Current tare mass
The mass of a cylinder complete with valve and other permanently fixed attachments, but
excluding gas and any removable cap.
3.13.2 Original tare mass
The mass of the cylinder without contents and including permanently fixed attachments, but
excluding removable fittings and valves and excluding any surface coating mass other than
galvanizing on the cylinder.
3.13.3 Tested tare mass
The mass of the degassed cylinder when presented for testing in a gas cylinder test station,
including permanently fixed attachments and surface coatings, but excluding removable
fittings and valves.
3.14 Parties concerned
The purchaser, designer, manufacturer, design verifier, inspection body, supplier, installer
and owner as appropriate.
3.15 Pressure definitions
3.15.1 Developed pressure
The settled pressure of a full cylinder, at a specified temperature.
3.15.2 Pressure
Pressures are expressed as gauge pressure unless otherwise indicated. Absolute pressure is
indicated with the suffix ‘abs’, e.g. 101.3 kPa abs.
3.15.3 Settled pressure
The pressure of the contents of a gas cylinder in chemical, thermal and diffusive
equilibrium.
NOTE: The corresponding reference temperature should also be stated when referring to settled
pressure.
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3.15.4 Maximum developed pressure
The settled pressure of a full cylinder at the maximum service temperature.
3.15.5 Working pressure
The settled pressure of a full cylinder of compressed gas at a reference temperature of 15°C.
NOTE: The term working pressure does not apply to liquefied gases.
3.15.6 Standard reference pressure
The standard pressure for the measurement of gas volume, taken as 101.3 kPa abs.
3.15.7 Test pressure
Required pressure to be applied during a pressure test for qualification or requalification.
3.16 SCBA
Self-contained breathing apparatus.
3.17 SCUBA
Self-contained underwater breathing apparatus.
3.18 Shall
Indicates that a statement is mandatory in order to comply with this Standard.
3.19 Should
Indicates a recommendation.
3.20 Shroud
A permanent attachment to the shell of a gas cylinder which partially or fully encloses the
cylinder valve.
NOTE: An alternative term is ‘valve protection ring’.
3.21 Temperature
3.21.1 Maximum service temperature
The maximum temperature to which a cylinder may be subjected in normal service, to be
taken as 65°C.
3.21.2 Critical temperature
Temperature above which the gas cannot exist in a liquid state.
3.22 Test station definitions
3.22.1 Test station
A facility which performs inspection and testing of gas cylinders according to the
requirements of AS 2337.
3.22.2 Integrated gas cylinder test station (IGCTS)
A test station located within a gas cylinder manufacturing facility, which is also accredited
to perform inspection of the manufacturing process.
3.22.3 Test station mark
A permanent mark on a gas cylinder applied by a test station, which is unique to that test
station.
NOTE: Test station marks are unique in order to enable traceability. A list of test station marks is
published as MP 48.
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3.23 Toxicity
The capacity of an external agent to produce damage to an organism.
3.24 Type test
Testing carried out to confirm that the design requirements of a product Standard have been
fulfilled.
NOTE: For example, product Standards which include type test requirements include AS 2469 for
cylinders, or AS 2473.1 for valves.
3.25 Ullage space
The volume of the vapour phase in a cylinder containing a liquefied gas.
3.26 Valve stem thread
The threaded portion of a valve that screws into the cylinder.
3.27 Water capacity
The total internal volumetric capacity of the cylinder, taken as being to the top of the outlet
connection thread.
NOTE: The water capacity is normally expressed in kilograms, the quantity is numerically equal
to the volume in litres.
4 CYLINDER DESIGN AND MANUFACTURE
4.1 General
Cylinders shall be designed, manufactured, tested and equipped in such a way as to
withstand the conditions to which they will be subjected during normal use.
4.2 Cylinder standards
Cylinders shall be manufactured to a current cylinder Standard as listed below:
(a) Australian Standards (AS).
(b) National and Supranational Standards issued by ISO, European Committee for
Standardization (CEN), Transport Canada (TC), or United States Department of
Transport (DOT).
(c) Other National Standards, subject to the following requirements:
(i) The Standard applies to the manufacture of cylinders in the country of origin.
(ii) The Standard contains equivalent requirements to a Standard listed in Items (a)
or (b) for material composition, properties and testing, method of manufacture,
testing including type testing and examination, rejection criteria, marking,
documentation and quality assurance.
4.3 Type testing
Design calculations and type tests shall be carried out for each new cylinder design in
accordance with the requirements of the cylinder Standard, and the results shall be set out
in a type test report acceptable to the inspection body as defined in Clause 5.3.1.
4.4 Design verification
4.4.1 New cylinder designs
All new cylinder designs, except those specifically exempted below, shall be verified to
confirm that the design and materials conform to the cylinder Standard, and are safe for the
intended filling and service conditions specified in AS 2030, Parts 2, 4 and 5.
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The design verifier shall be independent of the designer, and shall be competent in the
verification of gas cylinder designs of the type being verified.
NOTES:
1 When assessing the competence of a design verifier in the area of pressure equipment or gas
cylinders, some examples of possible evidence of competence include:
(a) Compliance with AS/NZS ISO/IEC 17020 (or an equivalent Standard).
(b) Accreditation for design verification, by NATA or IANZ.
(c) Certification as a design verifier by Engineers Australia or IPENZ.
(d) Approval as a design verifier under New Zealand legislation.
(e) Status as a ‘Notified Body’ in the EU.
(f) Operation of a quality management system complying with AS/NZS ISO 9001 or
equivalent, and certified by a certification body acceptable to JAS-ANZ.
2 The relevant regulatory authority may have further requirements regarding design
verification.
The following information shall be provided to the design verifier, either in English or with
an English translation:
(a) Dimensioned cylinder drawing.
(b) Type test report.
(c) Wall thickness and other calculations required by the nominated design specification,
for the pressure and temperature conditions defined by this Standard.
(d) Material specifications, material properties and heat treatment.
(e) Water capacity (or capacity range where applicable), operating pressure data, and test
pressure data.
(f) Design life, where appropriate.
(g) Temperature and cycle life limitations.
(h) Sufficient evidence to assess compliance with Clause 4.2(c), if the cylinder has been
made to an alternate National Standard.
(i) Any other relevant information requested by the design verifier.
4.4.2 Cylinders where design registration might be impractical
It is recognized that there are practical difficulties associated with the design registration of
certain types of cylinders, such as the following:
(a) Gas cylinders filled in a foreign country, imported for use and exported without
refilling after use.
(b) Gas cylinders brought into Australia for the express purpose of filling and immediate
export.
NOTES:
1 Suggested alternative requirements for such cylinders are set out in Appendix B.
2 Any exemption from design registration is the decision of the regulatory authority, which
might have additional or differing requirements to this Standard.
5 CYLINDER MANUFACTURING AND INSPECTION
5.1 General
The manufacturer shall be technically capable and shall possess all resources required for
the satisfactory manufacture of gas cylinders.
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The manufacturer shall have construction and testing facilities that are acceptable to a third
party inspection body (e.g. by successfully passing an audit).
5.2 Manufacturer’s quality system
The manufacturer shall operate a suitable quality system which describes all the elements,
requirements and provisions that are implemented by the manufacturer.
The quality system shall be documented in a systematic and orderly manner, in the form of
written policies, procedures and instructions.
5.3 Inspection and testing of manufacturing
5.3.1 Inspection body
The inspections, tests and audits in Clause 5 shall be carried out to the satisfaction of one of
the following types of inspection body:
(a) An independent inspection body which is accredited by JAS-ANZ (or an equivalent
body) to the requirements of AS/NZS ISO/IEC 17020 (or equivalent requirements)
for the inspection of gas cylinders.
(b) An IGCTS, as set out in AS 2337.1.
5.3.2 Inspection and testing requirements
The following requirements shall be met:
(a) The manufacturer shall ensure that appropriate production testing is carried out, and
shall perform sufficient inspections to ensure that the cylinders comply with the
relevant cylinder Standard.
(b) The manufacturer shall conduct any other inspections and tests which may be
required by the inspection body.
(c) The inspection body (or its delegate) shall certify each complying cylinder and
permanently apply its mark thereon.
(d) A manufacturer’s test certificate, signed by the inspection body and the manufacturer,
shall be issued before the gas cylinders are released.
5.3.3 Marking and identification
Cylinders shall be marked in accordance with the requirements of the cylinder Standard,
and in accordance with the specific requirements of AS 2030 Parts 2, 4 or 5, as applicable.
5.4 Cylinder manufacturing documentation
The following manufacturing documentation shall be retained by the manufacturer and the
importer for at least 20 years.
(a) The design verification report.
(b) Manufacturer's test certificates.
(c) Evidence to confirm the design registration number.
These documents shall be made available to the final owner upon request, and to the test
station which authorizes the initial filling of the cylinder (See Clause 6).
5.5 Cylinder neck thread
The cylinder neck thread shall be in accordance with one of the following:
(a) The specification of the cylinder.
(b) Where the specification does not mandate the cylinder neck thread, one of the
following:
(i) Tapered or parallel neck thread according to AS 2473.2.
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(ii) Tapered or parallel neck thread according CGA Standard V-1.
(iii) Tapered neck threads 25E or 17E according to ISO 10920, or ISO 11116-1.
(iv) Parallel neck threads M18, M25 or M30 according to ISO 15245-1.
(v) Unified Screw Thread (UNF) Class 2B in accordance with AS 3635.
(vi) Any other internationally-recognized standard.
NOTES:
1 It is recommended that the thread designation (e.g. 25AU, 25E, 3/4NGT), be stamped on
the cylinder.
2 Adaptors between cylinder neck threads and valves are considered to be hazardous due to
the risk of leakage and inadvertent separation. Adaptors are used in the Australian
Department of Defence systems, where close control of the system is provided for. Use of
adaptors in other systems is to be avoided.
The manifold between the cylinders and the common gas outlet valve of a bundle is not
considered to be an adaptor.
6 ADDITIONAL REQUIREMENTS PRIOR TO FILLING FOR THE FIRST TIME IN
AUSTRALIA
6.1 Initial test station inspection and marking
Each cylinder shall be inspected by a test station prior to filling for the first time in
Australia, in accordance with AS 2337.1 and other applicable Parts of AS 2337.
The test station shall be certified for the inspection and testing of cylinders according to the
requirements of AS 2337.1, and additionally to those Parts of AS 2337 that are relevant to
the type of cylinder being tested.
The certification body shall be independent of the test station, and shall be accredited by
JAS-ANZ or an equivalent body to grant certificates of conformity to test stations according
to the relevant Parts of AS 2337.
NOTES:
1 The presence of a design registration number on a cylinder may subsequently be used as
evidence that the design verification requirements have been met.
2 The presence of the first test station mark may be used at subsequent inspections and tests as
evidence that the cylinder meets the specified design and construction requirements.
3 An informative list of stamp marks, which have been assigned to certified test stations by
certification bodies, is published as MP 48.
6.2 Completion of a cylinder package
Additional preparation for the cylinder to be fit for filling for the first time in Australia, e.g.
fitting of cylinder valve, safety devices, valve protection and marking, shall be carried out
in accordance with the requirements of the cylinder Standard, of this Standard, and of the
other applicable Parts of AS 2030.
7 PERIODIC INSPECTION AND TESTING
Cylinders shall be subjected to periodic inspection and testing by a test station which
complies with Clause 6.1. Periodic inspection and testing shall be performed in accordance
with the requirements of the relevant Parts of AS 2030, of AS 2337.1, and of the other
relevant Parts of AS 2337.
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8 CARE AND HANDLING
8.1 General
A gas cylinder should always be presumed to contain pressure, even when gas is not
released when the valve is opened.
Cylinder valves shall not be disassembled nor removed from a cylinder, except by qualified
personnel and with the permission of the cylinder owner.
8.2 Storage, handling and transportation
A gas cylinder shall only be used for the storage and transport of gases and substances for
which it was designed.
NOTES:
1 For storage and handling of gas cylinders, the following Standards provide guidance:
AS/NZS 1596, AS 3848 Parts 1 and 2, AS 4289, AS 4332, AS 4839, AS 5034 and ISO 11625.
2 For transport, reference should be made to the ADG Code, and to relevant State, Territory and
Commonwealth regulations pertaining to dangerous goods and/or hazardous substances.
8.3 Avoidance of oil, grease and water
Neither oil nor grease shall be allowed to come into contact with the valves or cylinders
used for the storage and transport of any gas. Particular care shall be taken to prevent
contamination of any cylinder which contains oxygen, nitrous oxide, chlorine, any other
oxidizing agent or any gas for human respiration.
Care shall be taken to ensure that water is not allowed to enter a cylinder between
hydrostatic test or inspections.
NOTE: Exclusion of moisture and other potentially corrosive materials is particularly important
for cylinders manufactured from high strength steel where the relatively thin walls provide little
corrosion allowance.
8.4 Closing valves for transportation
The shut-off valve for each cylinder shall be closed during transportation.
8.5 Cylinders for toxic gases
A gastight seal shall not be removed from a toxic gas cylinder unless appropriate protection
(e.g. personal protective equipment) is afforded to the person(s) removing the seal. While
the seal is being removed, a check for leakage shall be carried out.
8.6 Need to keep cylinders cool
Filled cylinders shall be kept away from sources of heat which are likely to overheat the
cylinder, above its maximum working temperature.
8.7 Avoidance of shock
Cylinders should not be allowed to fall upon one another or be otherwise subjected to undue
mechanical shock. During transport and use, cylinders shall be secured.
8.8 Correct orientation
Cylinders filled with liquefied gas shall be transported, stored and used in a manner which
ensures that the safety device is in direct contact with the vapour space.
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APPENDIX A
LIST OF REFERENCED DOCUMENTS
(Normative)
AS
2030 Gas cylinders
2030.2 Part 2: Cylinders for dissolved acetylene
2030.4 Part 4: Welded cylinders––Insulated
2030.5 Part 5: Filling, inspection and testing of refillable cylinders
2278 Metal aerosol dispensers of capacity 50 mL to 1000 mL inclusive
2337 Gas cylinder test stations
2337.1 Part 1: General requirements, inspections, and tests––Gas cylinders
2469 Steel cylinders for compressed gases—Welded two-piece construction—
0.1 kg to 150 kg
2473 Valves for compressed gas cylinders
2473.1 Part 1: Specifications, type testing, and manufacturing tests and
inspections
2473.2 Part 2: Outlet connection (threaded) and stem (inlet) threads
3635 Unified (ISO inch) screw threads, associated gauges and gauging practice
3848 Filling of portable gas cylinders
3848.1 Part 1: Decant filling of medical air and oxygen into portable cylinders—
Safe procedures
3848.2 Part 2: Filling of portable cylinders for self-contained underwater
breathing apparatus (SCUBA) and non-underwater self-contained
breathing apparatus (SCBA)—Safe procedures
4289 Oxygen and acetylene gas reticulation systems
4332 The storage and handling of gases in cylinders
4839 The safe use of portable and mobile oxy-fuel gas systems for welding,
cutting, heating and allied processes
5034 Installation and use of inert gases for beverage dispensing
MP 48 Certified gas cylinder test stations
AS/NZS
1596 The storage and handling of LP Gas
AS/NZS ISO
9001 Quality management systems—Requirements
AS/NZS ISO/IEC
17020 General criteria for the operation of various types of bodies performing
inspection
ISO
10156 Gases and gas mixtures—Determination of fire potential and oxidizing
ability for the selection of cylinder valve outlets
10920 Gas cylinders—25E taper thread for connection of valves to gas
cylinders—Specification
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ISO
11116 Gas cylinders—17E taper thread for connection of valves to gas cylinders
11116-1 Part 1: Specifications
ISO
11625 Gas cylinders—Safe handling
15245 Gas cylinders—Parallel threads for connection of valves to gas cylinders
15245-1 Part 1: Specification
CGA
V-1 Compressed gas cylinder valve outlet and inlet connections
Australian Code for the Transport of Dangerous Goods by Road and Rail (ADG Code)
International Maritime Dangerous Goods Code (IMDG Code)
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© Standards Australia www.standards.org.au
APPENDIX B
DESIGN AND MANUFACTURE OF FOREIGN CYLINDERS IMPORTED FOR
FILLING AND IMMEDIATE EXPORT, OR IMPORTED FULL FOR USE AND
EXPORTED FOR RE-FILLING
(Informative)
B1 GENERAL
This Appendix sets out alternative design and manufacturing requirements for certain
cylinders for which design registration under the terms of State Regulations may not apply.
This Appendix applies to—
(a) foreign cylinders imported for the sole purpose of filling and then exported, including
marine cylinders; and
(b) foreign cylinders imported full for use in Australia, and either exported after that use,
or destroyed.
NOTE: Obligations may exist under Federal or State regulations, especially in relation to the
transport of any imported cylinder by road, rail or air.
B2 FOREIGN CYLINDERS IMPORTED FOR FILLING AND RE-EXPORT,
INCLUDING MARINE CYLINDERS
A cylinder which is imported for the sole purpose of filling and export from Australia, and
which is owned by a foreign supplier should comply with the following:
(a) The cylinder and its fittings should comply with the requirements of the IMDG Code.
(b) The filler should be familiar with all relevant requirements of the IMDG Code.
(c) The cylinder filling pressure and filling ratio should not exceed that allowed by the
IMDG Code or that of the country of origin of the cylinder, whichever is lower.
(d) The valve should be protected as required by either the IMDG Code or by the country
of origin, whichever is the most demanding.
(e) Inspection prior to filling should be according to the requirements of AS 2030.5.
NOTE: The International Maritime Dangerous Goods Code (IMDG Code) is internationally
recognized for aspects of design, manufacture, inspection and testing for any package containing
a dangerous good, including gas cylinders. For transport by sea, these requirements are
administered by the International Maritime Organization (IMO).
B3 CYLINDERS IMPORTED FULL FOR USE IN AUSTRALIA, AND EXPORTED
AFTER USE
A cylinder which is imported for the sole purpose of using the gas should comply with the
following:
(a) The cylinder should be manufactured to one of the following:
(i) A Standard published by the International Organization for
Standardization (ISO);
(ii) A Standard published by the European Committee for Standardization (CEN);
(iii) The requirements of the United States Department of Transport (DOT) or
Transport Canada (TC);
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(iv) Requirements which are known to have been certified by a competent authority
acceptable under the IMDG Code.
(b) The valve, including any safety device and its outlet, should be either as required by
the country of origin or one which complies with the applicable Part(s) of AS 2473.
(c) The valve should be protected, either as required by the IMDG code or as required by
the country of origin, whichever is the most restrictive.
(d) The cylinder filling pressure or filling ratio should not exceed that allowed by the
IMDG Code, or that of the country of origin of the cylinder, whichever is lower.
(e) The label should identify the contents, the amount of gas, the gas Class and
Subsidiary risk, and pressure, in English.
(f) The cylinder should not be filled in Australia, and should be either exported from
Australia after use, or rendered unusable.
(g) The cylinder should remain under the control of the importer until export or
destruction.
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APPENDIX C
COMPARISON OF DEFINED TERMS BETWEEN THIS STANDARD, AS 2030.1—1999 AND THE ADG CODE
(Informative)
Term or definition in this Standard (see Clause 3) Corresponding term or definition in AS 2030.1—1999 Corresponding term or definition in ADG Code
(where differs from this Standard)
Gas cylinder
Transportable pressure receptacle
Divided into three sub-categories:
– Gas cylinder (up to 150 kg WC)
– Pressure drum (welded receptacle 151 kg to
1000 kg WC)
– Tube (seamless receptacle 151 to 3000 kg WC)
A rigid transportable pressure receptacle, of water
capacity between 0.1 kg and 3000 kg, without openings or
integral attachments on the shell other than at the ends,
designed for the storage and transport of gases under
pressure.
Not specifically defined, but equivalent to the new
definition.
In the ADG Code, a transportable pressure receptacle
may be a transportable container built to a pressure
vessel code.
Closed cryogenic receptacle Cryogenic cylinder Closed cryogenic receptacle
Thermally insulated welded gas cylinder for refrigerated
liquefied gases of a water capacity of not more than
1000 kg.
Defined by AS 2030.4 to have a maximum WC of
500 litres (kg).
Transportable thermally insulated receptacle for
refrigerated liquefied gases, of a water capacity of not
more than 1000 litres.
Composite cylinder Fibre reinforced plastic (FRP) cylinder
A cylinder manufactured using a wrapping of continuous
fibre strands in a resin matrix, with or without a liner.
The meaning is identical to ‘composite' cylinder.
(continued)
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Bundle Manifolded pack of cylinders Bundles
An assembly of cylinders, each of water capacity less than
150 kg, fastened together and interconnected by a
manifold and which are intended to be transported as a
single unit.
An assembly of cylinders fastened together and which are
inter-connected by a manifold and are intended to be
transported as a single unit.
Assemblies of cylinders that are fastened together and
which are interconnected by a manifold and
transported as a unit. The total water capacity must not
exceed 3000 litres except that bundles intended for the
transport of gases of Division 2.3 must be limited to
1000 litres water capacity.
Fittings
Not specifically defined, but used to indicate valves, safety devices and valve protection.
Not used.
Service Equipment
Defined in various Clauses, e.g. 'Means measuring instruments and filling, discharge, venting and safety devices'.
Gas Gas. Not defined
A gas is a substance which— Compressed Gas
(a) has a vapour pressure greater than 300 kPa; or
(b) is completely gaseous at 20°C at a standard pressure of 101.3 kPa.
(Carbonated beverages are excluded from this definition.)
Any permanent gas enclosed under such conditions that
its gauge pressure exceeds 170 kPa when its temperature
is 15°C, or any liquefied gas, as hereunder defined,
within a closed container (i.e. corresponds to
‘compressed or liquefied gas’ in the current Standard).
Compressed gas Permanent gas
A gas which when packaged under pressure, is entirely gaseous at −50°C.
This category includes all gases with a critical temperature less than or equal to −50°C.
NOTE: This definition will include some gases which were
formerly classed as ‘permanent gas’ in previous editions of this
Standard.
A gas having a critical temperature not exceeding 0°C, i.e. a gas that cannot be liquefied by pressure at a temperature of 0°C.
(continued)
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Liquefied gas Liquefied gas
High pressure liquefied gas: A liquefied gas with critical temperature between −50°C and +65°C.
Low pressure liquefied gas: A liquefied gas with critical temperature above +65°C.
High pressure liquefiable gas: A liquefiable gas having a critical temperature greater than 0°C but not exceeding 65°C.
Flammable gas Flammable gas
A gas which will ignite in air at 20°C and a standard pressure of 101.3 kPa absolute.
Gas which will burn in air at pressure of 101.3 kPa.
Working pressure Maximum filling pressure (at 15°C)
The settled pressure of a full cylinder of compressed gas at
a reference temperature of 15°C
The meaning is the same as ‘working pressure’.
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For information regarding the development of Standards contact: Standards Australia Limited GPO Box 476 Sydney NSW 2001 Phone: 02 9237 6000 Fax: 02 9237 6010 Email: [email protected] Internet: www.standards.org.au For information regarding the sale and distribution of Standards contact: SAI Global Limited Phone: 13 12 42 Fax: 1300 65 49 49 Email: [email protected]
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