Petroleum and natural gas industries - Downhole equipment - Subsurface safety valve equipment (ISO 10432:1999)

Erdöl- und Erdgasindustrien - Bohrloch-Ausrüstung - Untertage-Sicherheitsventil-Ausrüstung (ISO 10432:1999)

Diese Internationale Norm legt die zulässigen Mindestanforderungen an Untertage-Sicherheitsventil-Ausrüstungen fest. Die Norm erfaßt Untertage-Sicherheitsventile, Befestigungsvorrichtungen und Landenippel für Sicherheitsventile sowie alle Bauteile, die Einfluß auf die Funktionstauglichkeit oder Austauschbarkeit der SSSV-Ausrüstung (Untertage-Sicherheitsventil-Ausrüstung) ausüben können, weil durch sie Toleranzen und/oder Abstände festgelegt werden.

Industries du pétrole et du gaz naturel - Equipement de forage vertical - Vannes de protection de fond de puits (ISO 10432:1999)

Petroleum and natural gas industries - Downhole equipment - Subsurface safety valve equipment (ISO 10432:1999)

General Information

Status
Withdrawn
Publication Date
31-Dec-2001
Withdrawal Date
26-Jan-2009
Technical Committee
Current Stage
9900 - Withdrawal (Adopted Project)
Start Date
15-Jan-2009
Due Date
07-Feb-2009
Completion Date
27-Jan-2009

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SLOVENSKI STANDARD
SIST EN ISO 10432:2002
01-januar-2002
Petroleum and natural gas industries - Downhole equipment - Subsurface safety
valve equipment (ISO 10432:1999)
Petroleum and natural gas industries - Downhole equipment - Subsurface safety valve
equipment (ISO 10432:1999)
Erdöl- und Erdgasindustrien - Bohrloch-Ausrüstung - Untertage-Sicherheitsventil-
Ausrüstung (ISO 10432:1999)
Industries du pétrole et du gaz naturel - Equipement de forage vertical - Vannes de
protection de fond de puits (ISO 10432:1999)
Ta slovenski standard je istoveten z: EN ISO 10432:1999
ICS:
75.180.10 Oprema za raziskovanje in Exploratory and extraction
odkopavanje equipment
SIST EN ISO 10432:2002 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN ISO 10432:2002

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SIST EN ISO 10432:2002

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SIST EN ISO 10432:2002

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SIST EN ISO 10432:2002

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SIST EN ISO 10432:2002

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SIST EN ISO 10432:2002
INTERNATIONAL ISO
STANDARD 10432
Second edition
1999-11-01
Petroleum and natural gas industries —
Downhole equipment — Subsurface safety
valve equipment
Industries du pétrole et du gaz naturel — Équipement de forage vertical —
Vannes de protection de fond de puits
A
Reference number
ISO 10432:1999(E)

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SIST EN ISO 10432:2002
ISO 10432:1999(E)
Contents
1 Scope .1
2 Normative references .1
3 Terms and definitions.3
4 Requirements .5
4.1 General.5
4.2 Design requirements .5
4.3 Functional considerations .6
4.4 Design considerations .6
4.5 Verification test .7
5 Materials.7
5.1 General.7
5.2 Metals.7
5.3 Non-metals .8
5.4 Traceability .8
6 Quality control requirements.8
6.1 General.8
6.2 Documentation retention .8
6.3 Personnel qualifications .9
6.4 Calibration systems.9
6.5 Inspection of elastomeric materials.9
6.6 Dimensional inspection.9
6.7 Thread inspection.9
6.8 Welding and brazing.10
©  ISO 1999
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by any means, electronic
or mechanical, including photocopying and microfilm, without permission in writing from the publisher.
International Organization for Standardization
Case postale 56 • CH-1211 Genève 20 • Switzerland
Internet iso@iso.ch
Printed in Switzerland
ii

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SIST EN ISO 10432:2002
© ISO
ISO 10432:1999(E)
6.9 Qualification of heat treatment equipment . 10
6.10 Coatings and overlays . 10
6.11 Mechanical and physical properties (where required by this International Standard). 10
6.12 NDE requirements . 11
7 Testing . 13
7.1 General . 13
7.2 Verification testing . 14
7.3 Functional testing. 16
7.4 General requirements for an SSSV verification test facility. 16
7.5 SCSSV verification test procedure . 17
7.6 SCSSV gas flow test (record results as per Annex B, Table B.2) . 18
7.7 Drift test (record results as per Annex B, Table B.4). 19
7.8 Liquid leakage test (record results as per Annex B, Table B.6). 19
(record results as per Annex B, Table B.7)
7.9 Unequalized opening test . 19
7.10 Operating-pressure test (record results as per Annex B, Table B.8). 20
7.11 Propane test (record results as per Annex B, Table B.9). 20
7.12 Nitrogen leakage test (record results as per Annex B, Table B.10). 20
7.13 SCSSV Class 1 flow test (record results as per Annex B, Table B.11) . 21
7.14 Controlled-temperature test (record results as per Annex B, Table B.13). 21
7.15 SCSSV Class 2 flow test (record results as per Annex B, Table B.15) . 22
7.16 SSCSV verification test procedure . 22
7.17 SSCSV gas closure test (record results as per Annex B, Table B.17). 23
7.18 Liquid closure test (record results as per Annex B, Table B.18) . 23
7.19 SSCSV Class 1 flow test (record results as per Annex B, Table B.21) . 24
7.20 SSCSV Class 2 flow test (record results as per Annex B, Table B.23) . 24
7.21 SCSSV functional testing. 24
7.22 SSCSV functional testing. 26
7.23 Safety valve landing nipple (SVLN) testing. 28
7.24 Safety valve (SV) lock testing. 29
7.25 Verification test for seal materials . 29
8 Identification, documentation and preparation for transport . 30
iii

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SIST EN ISO 10432:2002
© ISO
ISO 10432:1999(E)
8.1 Identification.30
8.2 Documentation.31
8.3 Preparation for transport .32
9 Failure reporting and analysis.32
Annex A (informative) Informative tables.33
Annex B (normative) Documentation/reference tables .35
Annex C (informative) Reference test figures.60
Annex D (informative) Failure-reporting recommendations for operators.68
Annex E (normative) Test agency reporting and records (see 7.2.4).70
Annex F (informative) Checklist of suggested ordering information for SSSV equipment.71
iv

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SIST EN ISO 10432:2002
© ISO
ISO 10432:1999(E)
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies (ISO
member bodies). The work of preparing International Standards is normally carried out through ISO technical
committees. Each member body interested in a subject for which a technical committee has been established has
the right to be represented on that committee. International organizations, governmental and non-governmental, in
liaison with ISO, also take part in the work. ISO collaborates closely with the International Electrotechnical
Commission (IEC) on all matters of electrotechnical standardization.
Draft International Standards adopted by the technical committees are circulated to the member bodies for voting.
Publication as an International Standard requires approval by at least 75 % of the member bodies casting a vote.
This International Standard was developed by Technical Committee ISO/TC 67, Materials, equipment and offshore
structures for petroleum and natural gas industries, Subcommittee SC 4, Drilling and production equipment.
This second edition cancels and replaces the first edition (ISO 10432:1993) and includes the changes in API 14A,
ninth edition, 1994, and its Supplement dated December 1997.
Annex B and Annex E form a normative part of this International Standard. Annexes A, C, D and F are for
information only.
v

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SIST EN ISO 10432:2002
© ISO
ISO 10432:1999(E)
Introduction
This International Standard has been developed by users/purchasers and suppliers/manufacturers of subsurface
safety valve equipment intended for use in the petroleum and natural gas industry worldwide. This International
Standard is intended to give requirements and information to both parties in the selection, manufacture, testing and
use of subsurface safety valve equipment. Further, this International Standard addresses requirements that set the
minimum parameters with which the supplier/manufacturer must comply to claim conformity with this standard.
Users of this International Standard should be aware that further or differing requirements might be needed for
individual applications. This International Standard is not intended to inhibit a supplier/manufacturer from offering, or
the user/purchaser from accepting, alternative equipment or engineering solutions. This may be particularly
applicable where there is innovative or developing technology. Where an alternative is offered, the
supplier/manufacturer should identify any variations from this International Standard and provide details.
Upon publication of ISO 16070, Petroleum and natural gas industries — Downhole equipment — Lock mandrels
and landing nipples, as an International Standard, the requirements for lock mandrels and landing nipples in this
International Standard 10432 will be superseded.
vi

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SIST EN ISO 10432:2002
INTERNATIONAL STANDARD  © ISO ISO 10432:1999(E)
Petroleum and natural gas industries — Downhole
equipment — Subsurface safety valve equipment
1 Scope
This International Standard was formulated to provide the minimum acceptable requirements for subsurface safety
valve (SSSV) equipment. It covers subsurface safety valves, safety valve locks, safety valve landing nipples and all
components that establish tolerances and/or clearances which may affect performance or interchangeability of the
SSSV equipment. Safety valve locks, safety valve landing nipples and SSSVs manufactured by different facilities or
manufacturers may be supplied as separate items.
NOTE Limits: The subsurface safety valve is an emergency safety device, and is not intended or designed for operational
activities, such as production/injection reduction, production stop, or as a backflow valve.
2 Normative references
The following normative documents contain provision which, through reference in this text, constitute provisions of
this International Standard. For dated references, subsequent amendments to, or revisions of, any of these
publications do not apply. However, parties to agreements based on this International Standard are encouraged to
investigate the possibility of applying the most recent editions of the normative documents indicated below. For
undated references, the latest edition of the normative document referred to applies. Members of ISO and IEC
maintain registers of currently valid International Standards.
ISO 2859-1:1999, Sampling procedures for inspection by attributes — Part 1: Sampling schemes indexed by
acceptance quality level (AQL) for lot-by-lot inspection.
ISO 3601-1:1988, Fluid systems — Sealing devices — O-rings — Part 1: Inside diameters, cross-sections,
tolerances and size identification code.
1)
ISO 3601-3:— , Fluid power systems — O-rings — Part 3: Quality acceptance criteria.
ISO 10417:1993, Petroleum and natural gas industries — Subsurface safety valve systems — Design, installation,
operation and repair.
2)
ISO 11960:— , Petroleum and natural gas industries — Steel pipes for use as casing or tubing for wells.
ANSI/NCSL Z540-1:1994, General requirements for calibration laboratories and measuring and test equipment.
API Spec 5B:1996, Threading, gauging, and thread inspection of casing, tubing, and line pipe threads.
API RP 13B1:1990 (and 1993, 1996 supplements), Standard procedure for field testing water-based drilling fluids.
API Manual of Petroleum Measurement Standards, Chapter 10.4:1988 (reaffirmed 1993), Determination of
sediment and water in crude oil by the centrifuge method (field procedure).

1) To be published. (Revision of ISO 3601-3:1987)
2) To be published. (Revision of ISO 11960:1996)
1

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SIST EN ISO 10432:2002
© ISO
ISO 10432:1999(E)
ASME Boiler and Pressure Vessel Code, Section II:1998, Materials specification.
ASME Boiler and Pressure Vessel Code, Section V:1998, Nondestructive testing.
ASME Boiler and Pressure Vessel Code, Section VIII:1998, Pressure vessels.
ASME Boiler and Pressure Vessel Code, Section IX:1998, Welding and brazing qualifications.
ASTM A 370:1997, Standard test methods and definitions for mechanical testing of steel products.
ASTM A 388/A 388M:1995, Standard practice for ultrasonic examination of heavy steel forgings.
ASTM A 609/A 609M:1991,Standard practice for castings, carbon, low-alloy, and martensitic stainless steel,
ultrasonic examination thereof.
ASTM D 395:1998, Standard test methods for rubber property — Compression set.
ASTM D 412:1998, Standard test methods for vulcanized rubber and thermoplastic rubbers and thermoplastic
elastomers — Tension.
ASTM D 1414:1994, Standard test methods for rubber O-rings.
ASTM D 1415:1988, Standard test methods for rubber property — International hardness.
ASTM D 2240:1997, Standard test methods for rubber property — Durometer hardness.
ASTM E 10:1998, Standard test method for Brinell hardness of metallic materials.
ASTM E 18:1997,
Standard test methods for Rockwell hardness and Rockwell superficial hardness of metallic
materials.
ASTM E 92:1982, Standard test method for Vickers hardness of metallic materials.
ASTM E 94:1993, Standard guide for radiographic testing.
ASTM E 140:1997, Standard hardness conversion tables for metals.
ASTM E 165:1995, Standard test method for liquid penetrant examination.
ASTM E 186:1993, Standard reference radiographs for heavy-walled [2 to 4 1/2-in. (51 to 114-mm)] steel castings.
ASTM E 280:1993, Standard reference radiographs for heavy-walled [4 1/2 to 12-in. (114 to 305-mm)] steel
castings.
ASTM E 428:1992, Standard practice for fabrication and control of steel reference blocks used in ultrasonic
inspection
ASTM E 446:1993, Standard reference radiographs for steel castings up to 2 in. (51 mm) in thickness.
ASTM E 709:1995, Standard guide for magnetic particle examination.
MIL-H-6875H:1989, Process for heat treatment of steel.
NACE MR0175:1992, Sulfide stress cracking resistant metallic materials for oilfield equipment.
SNT-TC-1A:1988, Personnel qualification and certification in nondestructive testing.
BS 2M 54:1991, Specification for temperature control in the heat treatment of metals.
2

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SIST EN ISO 10432:2002
© ISO
ISO 10432:1999(E)
3 Terms and definitions
For the purposes of this International Standard, the following terms and definitions apply:
3.1
AQL
acceptance quality level
3.2
bean
the orifice or designed restriction causing the pressure drop in velocity-type SSCSVs
3.3
chloride stress corrosion cracking
cracking under the combined action of tensile stress and corrosion in the presence of chlorides and water
3.4
design acceptance criteria
defined limits placed on characteristics of materials, products,or services, established by the manufacturer to
ensure conformance to the product design
3.5
end connection
SSSV equipment/tubular connecting interface
3.6
failure
any condition of SSSV equipment that prevents it from performing the design function
3.7
fit
the geometric relationship between parts
NOTE This would include the tolerance criteria used during the design of a part and its mating parts, including seals
adjusted to or shaped for their purpose.
3.8
form
the essential shape of a product including all its component parts
3.9
function
the operation of a product during service
3.10
functional test
test performed to confirm proper operation of SSSV equipment
3.11
heat treatment
heat treating
alternate steps of controlled heating and cooling of materials for the purpose of changing physical or mechanical
properties
3.12
interchangeable
conforming in every detail, within specified tolerances, to both fit and function of a safe design but not necessarily to
the form
3

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SIST EN ISO 10432:2002
© ISO
ISO 10432:1999(E)
3.13
manufacturer
the principal agent in the design, fabrication and furnishing of SSSV equipment, who chooses to comply with this
International Standard
3.14
model
SSSV equipment with unique internal part(s) and operating characteristics which differentiate it from other SSSV
equipment of the same type
NOTE It may have any of a variety of end connections.
3.15
NDE
nondestructive examination
3.16
operating manual
a publication issued by the manufacturer which contains detailed data and instructions related to the design,
installation, operation and maintenance of SSSV equipment
3.17
operator
a user of SSSV equipment
3.18
SCSSV
a surface-controlled subsurface safety valve
3.19
SSCSV
a subsurface-controlled subsurface safety valve
NOTE An SSCSV is actuated by the characteristics of the well.
3.20
SSSV
a subsurface safety valve (a device whose design function is to prevent uncontrolled well flow when closed)
NOTE These devices may be installed and retrieved by wireline or pump-down methods (wireline-retrievable) or be an
integral part of the tubing string (tubing retrievable).
3.21
SSSV equipment
the subsurface safety valve, safety valve lock, safety valve landing nipple and all components that establish
tolerances and/or clearances which may affect performance or interchangeability of the SSSV equipment
3.22
stress corrosion cracking
cracking which results from a combination of corrosion and stress when susceptible materials are exposed to
specific corrosive media
3.23
stress relief
controlled heating of material to a predetermined temperature for the purpose of reducing any residual stresses
3.24
sulfide stress cracking
cracking under the combined action of tensile stress and corrosion in the presence of water and hydrogen sulfide
4

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SIST EN ISO 10432:2002
© ISO
ISO 10432:1999(E)
3.25
SV lock
a device attached to or a part of the SSSV that holds the SSSV in place
3.26
SVLN
a receptacle with internal sealing surfaces in which an SSSV may be installed
NOTE It may include recesses for locking devices to hold the SSSV in place and may be ported for communication to an
outside source for SSSV operation.
3.27
test agency
any party which provides a test facility and administers a test programme that meets the verification test
requirements of this International Standard
3.28
type
SSSV equipment with unique characteristics which differentiate it from other SSSV equipment
NOTE The SCSSV, the velocity-type SSCSV and the low-tubing-pressure-type SSCSV are examples of SSSV types.
3.29
verification test
test performed to qualify a particular size, type and model of SSSV equipment for a specific class of service
3.30
weight loss corrosion
loss of metal in areas exposed to fluids which contain water or brine and carbon dioxide (CO ), oxygen (O ) or other
2 2
corrosive agents
4 Requirements
4.1 General
The user shall provide to the manufacturer the information required to define the appropriate product. Annex F
contains a checklist of suggested ordering information.
4.2 Design requirements
4.2.1  Drawings, manufacturing specifications and the verification test results shall be retained by the manufacturer
for a period of ten years after SSSVs of that size, model and type are discontinued from the manufacturer's product
line. SSSV equipment conforming to this International Standard shall be manufactured to drawings and
specifications that are substantially the same as those of the SSSV equipment that has passed the verification test.
4.2.2  Documentation of designs shall include methods, assumptions, calculations and design requirements.
Design requirements shall include but not be limited to those criteria for size, test and operating pressures, material,
environmental and other pertinent requirements upon which the design is based. Design documentation shall be
clear, legible, reproducible and retrievable.
4.2.3  Design documentation shall be reviewed and verified by a qualified individual other than the individual who
created the original design.
4.2.4  Changes to the design acceptance criteria which may affect verification test performance or interchange-
ability of SSSV equipment shall require requalification, except that seals which have passed the applicable
verification test requirements of clause 7 shall be considered interchangeable among the SSSV equipment of any
one manufacturer for a particular class of service.
5

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SIST EN ISO 10432:2002
© ISO
ISO 10432:1999(E)
4.2.5  SSSV equipment manufactured in accordance with this International Standard shall conform to one or more
of the following classes of service:
 Class 1: standard service. This class of SSSV equipment is intended for use in wells which do not exhibit the
detrimental effects caused by sand or corrosive agents.
 Class 2: sandy service. This class of SSSV equipment is intended for use in wells where a substance such as
sand could be expected to cause SSSV equipment failure. Class 2 SSSV equipment shall also meet the
requirements for Class 1 service.
 Class 3: stress corrosion cracking service. This class of SSSV equipment is intended for use in wells where
corrosive agents could be expected to cause stress corrosion cracking. Class 3 equipment shall meet the
requirements for Class 1 or Class 2 and be manufactured from materials which are resistant to stress corrosion
cracking. Within this service class, there are two divisions, 3S for sulfide stress cracking service and 3C (see
note) for chloride stress cracking service. Metallic materials, suitable for a 3S environment, shall be in
accordance with NACE MR0175.
NOTE Metallic materials suitable for Class 3C service are dependent on specific well conditions. No national or
international standards exist for the application of metallic materials for this class of service.
 Class 4: weight loss corrosion service. This class of SSSV equipment is intended for use in wells where
corrosive agents could be expected to cause weight loss corrosion. Class 4 equipment shall meet the
requirements for Class 1 or Class 2 and be manufactured from materials which are resistant to weight loss
corrosion (see note).
NOTE Metallic materials suitable for Class 4 service are dependent on specific well conditions. No national or international
standards exist for the application of metallic materials for this class of service.
4.3 Functional considerations
SSSV design shall permit prediction and repeatability of rates, pressures or other conditions required for closure.
4.4 Design considerations
4.4.1  The manufacturer shall establish rated working pressures of SSSV equipment within the requirements of this
International Standard. These rated working pressures are commonly 20,7 MPa, 34,5 MPa, 41,4 MPa, 69,0 MPa
and 103,5 MPa (3 000 psi, 5 000 psi, 6 000 psi, 10 000 psi and 15 000 psi). Temperature effects on all the materials
used in the manufacture of SSSV equipment shall be considered in establishing the rated working pressure. The
design shall take into account the effects of pressure containment and pressure-induced loads. Specialized
conditions shall also be considered such as pressure testing with temporary test plugs.
4.4.2  The manufacturer shall establish internal yield pressure, collapse pressure and minimum tensile strength
ratings, excluding end connections.
4.4.3  SSSV equipment design shall take into consideration the effects of temperature gradients and thermal cycles
on all components. The upper
...

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