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SIST EN ISO 19902:2008/A1:2014

(Amendment)

Petroleum and natural gas industries - Fixed steel offshore structures (ISO 19902:2007/Amd 1:2013)

Petroleum and natural gas industries - Fixed steel offshore structures (ISO 19902:2007/Amd 1:2013)

This International Standard specifies requirements and provides recommendations applicable to the following types of fixed steel offshore structures for the petroleum and natural gas industries: caissons, free-standing and braced; jackets; monotowers; towers. In addition, it is applicable to compliant bottom founded structures, steel gravity structures, jack-ups, other bottom founded structures and other structures related to offshore structures (such as underwater oil storage tanks, bridges and connecting structures), to the extent to which its requirements are relevant. This International Standard contains requirements for planning and engineering of the following tasks: a) design, fabrication, transportation and installation of new structures as well as their future removal; b) in-service inspection and integrity management of both new and existing structures; c) assessment of existing structures; d) evaluation of structures for reuse at different locations.

Erdöl- und Erdgasindustrie - Gegründete Stahlplattformen (ISO 19902:2007/Amd 1:2013)

Industries du pétrole et du gaz naturel - Structures en mer fixes en acier (ISO 19902:2007/Amd 1:2013)

Industrija za predelavo nafte in zemeljskega plina - Varjene jeklene konstrukcije naftnih ploščadi (ISO 19902:2007/Amd 1:2013)

General Information

Status
Withdrawn
Publication Date
02-Jan-2014
Withdrawal Date
06-Dec-2020
ICS
75.180.10 - Exploratory, drilling and extraction equipment
Technical Committee
I13 - Imaginarni 13
Current Stage
9900 - Withdrawal (Adopted Project)
Start Date
07-Dec-2020
Due Date
30-Dec-2020
Completion Date
07-Dec-2020
Ref Project
EN ISO 19902:2007/A1:2013 - Petroleum and natural gas industries - Fixed steel offshore structures (ISO 19902:2007/Amd 1:2013)

Relations

Amends
SIST EN ISO 19902:2008 - Petroleum and natural gas industries - Fixed steel offshore structures (ISO 19902:2007)
Effective Date
01-Feb-2014
Replaced By
SIST EN ISO 19902:2021 - Petroleum and natural gas industries - Fixed steel offshore structures (ISO 19902:2020)
Effective Date
02-Dec-2020
Amends
SIST EN ISO 19902:2008 - Petroleum and natural gas industries - Fixed steel offshore structures (ISO 19902:2007)
Effective Date
08-Jun-2022

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SLOVENSKI STANDARD
SIST EN ISO 19902:2008/A1:2014
01-februar-2014
,QGXVWULMD]DSUHGHODYRQDIWHLQ]HPHOMVNHJDSOLQD9DUMHQHMHNOHQHNRQVWUXNFLMH
QDIWQLKSORãþDGL ,62$PG
Petroleum and natural gas industries - Fixed steel offshore structures (ISO
19902:2007/Amd 1:2013)
Erdöl- und Erdgasindustrie - Gegründete Stahlplattformen (ISO 19902:2007/Amd
1:2013)
Industries du pétrole et du gaz naturel - Structures en mer fixes en acier (ISO
19902:2007/Amd 1:2013)
Ta slovenski standard je istoveten z: EN ISO 19902:2007/A1:2013
ICS:
75.180.10 Oprema za raziskovanje in Exploratory and extraction
odkopavanje equipment
SIST EN ISO 19902:2008/A1:2014 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN ISO 19902:2008/A1:2014

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SIST EN ISO 19902:2008/A1:2014


EUROPEAN STANDARD
EN ISO 19902:2007/A1

NORME EUROPÉENNE

EUROPÄISCHE NORM
August 2013
ICS 75.180.10
English Version
Petroleum and natural gas industries - Fixed steel offshore
structures (ISO 19902:2007/Amd 1:2013)
Industries du pétrole et du gaz naturel - Structures en mer Erdöl- und Erdgasindustrie - Gegründete Stahlplattformen
fixes en acier (ISO 19902:2007/Amd 1:2013) (ISO 19902:2007/Amd 1:2013)
This amendment A1 modifies the European Standard EN ISO 19902:2007; it was approved by CEN on 12 July 2013.

CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for inclusion of this
amendment into the relevant national standard without any alteration. Up-to-date lists and bibliographical references concerning such
national standards may be obtained on application to the CEN-CENELEC Management Centre or to any CEN member.

This amendment exists in three official versions (English, French, German). A version in any other language made by translation under the
responsibility of a CEN member into its own language and notified to the CEN-CENELEC Management Centre has the same status as the
official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania,
Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and United
Kingdom.





EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2013 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN ISO 19902:2007/A1:2013: E
worldwide for CEN national Members.

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SIST EN ISO 19902:2008/A1:2014
EN ISO 19902:2007/A1:2013 (E)
Contents Page
Foreword .3

2

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SIST EN ISO 19902:2008/A1:2014
EN ISO 19902:2007/A1:2013 (E)
Foreword
This document (EN ISO 19902:2007/A1:2013) has been prepared by Technical Committee ISO/TC 67
"Materials, equipment and offshore structures for petroleum, petrochemical and natural gas industries" in
collaboration with Technical Committee CEN/TC 12 “Materials, equipment and offshore structures for
petroleum, petrochemical and natural gas industries” the secretariat of which is held by AFNOR.
This European Standard shall be given the status of a national standard, either by publication of an identical
text or by endorsement, at the latest by February 2014, and conflicting national standards shall be withdrawn
at the latest by February 2014.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights.
According to the CEN-CENELEC Internal Regulations, the national standards organizations of the following
countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech
Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece,
Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal,
Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom.
Endorsement notice
The text of ISO 19902:2007/Amd 1:2013 has been approved by CEN as EN ISO 19902:2007/A1:2013 without
any modification.
3

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SIST EN ISO 19902:2008/A1:2014

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SIST EN ISO 19902:2008/A1:2014
INTERNATIONAL ISO
STANDARD 19902
First edition
2007-12-01
AMENDMENT 1
2013-08-01
Petroleum and natural gas industries
— Fixed steel offshore structures
AMENDMENT 1
Industries du pétrole et du gaz naturel — Structures en mer fixes en acier
AMENDEMENT 1
Reference number
ISO 19902:2007/Amd.1:2013(E)
©
ISO 2013

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SIST EN ISO 19902:2008/A1:2014
ISO 19902:2007/Amd.1:2013(E)

COPYRIGHT PROTECTED DOCUMENT
© ISO 2013
All rights reserved. Unless otherwise specified, 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
Case postale 56 • CH-1211 Geneva 20
Tel. + 41 22 749 01 11
Fax + 41 22 749 09 47
E-mail copyright@iso.org
Web www.iso.org
Published in Switzerland
ii © ISO 2013 – All rights reserved

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SIST EN ISO 19902:2008/A1:2014
ISO 19902:2007/Amd.1:2013(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.
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 documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2. www.iso.org/directives
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of any
patent rights identified during the development of the document will be in the Introduction and/or on
the ISO list of patent declarations received. www.iso.org/patents
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation on the meaning of ISO specific terms and expressions related to conformity
assessment, as well as information about ISO’s adherence to the WTO principles in the Technical
Barriers to Trade (TBT) see the following URL:  http://www.iso.org/iso/home/standards_development/
resources-for-technical-work/foreword.htm
The committee responsible for this document is ISO/TC 67, Materials, equipment and offshore structures
for petroleum and natural gas industries, Subcommittee SC 7, Offshore structures.
© ISO 2013 – All rights reserved iii

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SIST EN ISO 19902:2008/A1:2014

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SIST EN ISO 19902:2008/A1:2014
ISO 19902:2007/Amd.1:2013(E)
Petroleum and natural gas industries — Fixed steel
offshore structures
AMENDMENT 1
Page 14, Clause 5
Delete:
PLS progressive collapse limit state
Replace with:
PLS progressive collapse limit states
Page 15, 6.1.1
Delete:
NOTE   There have been historical differences in the usage and understanding of the terms “jacket” and
“tower”, particularly between the USA and Europe. The difference in such understanding of the terms
has no significant impact on the application of this International Standard as long as the differences in
structural behaviour are considered in the analyses of the different structures.
Replace with:
NOTE 1   There have been historical differences in the usage and understanding of the terms “jacket” and
“tower”, particularly between the USA and Europe. The difference in such understanding of the terms
has no significant impact on the application of this International Standard as long as the differences in
structural behaviour are considered in the analyses of the different structures.
NOTE 2   There have been historical differences, which continue to exist, in the use and understanding
of the term “caisson”. In the offshore oil and gas industry this term, together with its variants “braced
caisson” or “free-standing caisson” (see, respectively, 3.7 and 3.22), has traditionally been used to
refer to a particular type of minimum fixed structure, where the main component is a relatively large
diameter tubular member, with or without additional lateral support, intended to satisfy various
functional requirements such as supporting one or more wells, or supporting small decks and associated
facilities. Conversely, in the geotechnical arena the term “caisson” has traditionally been used to refer to
“foundation caisson”, i.e. foundation component /system consisting of shorter and more rigid chamber
of larger diameter or larger lateral dimensions than the caisson structures described above.
Clause 17 covers the geotechnical design of long slender piles (i.e. satisfying the condition L/D ≥ 10,
where L is the length embedded in the soil, and D is the outside diameter) for fixed steel structures.
The provisions of that clause apply also to braced or free-standing caisson structures with L/D ≥
10. However, the content of Clause 17 does not apply to the design of short and rigid, large diameter
foundations with L/D < 10. Guidance on the geotechnical design of this type of foundations is within the
scope of ISO 19901-4.
Page 20, 6.6.2
Renumber the existing list as: a) b) c).
© ISO 2013 – All rights reserved 1

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SIST EN ISO 19902:2008/A1:2014
ISO 19902:2007/Amd.1:2013(E)

Page 23, 7.1
Delete:
The general principles on which structural design requirements are based are documented in ISO 19900.
ISO 19900 requires that structural design be performed with reference to a specified set of limit states.
For each limit, state design situations shall be determined and an appropriate calculation model shall
be established
Replace with:
The general principles on which structural design requirements are based are documented in ISO 19900.
ISO 19900 requires that structural design be performed with reference to a specified set of limit states.
For each limit state, design situations shall be determined and an appropriate calculation model shall
be established
Page 23, 7.2
Renumber the existing list as: a) b) c) d).
Page 27, Clause 8
Add the following below “Actions for pre-service and removal situations”:
IMPORTANT — Users of this document should be aware of the publication of ISO 19901-6,
Petroleum and natural gas industries — Specific requirements for offshore structures — Part
6: Marine operations, which followed publication of the first edition of ISO 19902. Where the
provisions in ISO 19901-6 now overlap with ISO 19902, ISO 19901-6 may be used in preference.
Page 31, 8.3.2
Renumber the existing list as: a) b) c).
Page 31, 8.3.5
Renumber the existing list as: a) b).
Page 81, 12.4.4.6
Delete:
b) where foundation failure occurs before structural failure, structural failure should be determined
by assuming a foundation capacity based on upper bound estimates of soil properties. The upper bound
approach, b) above, provides an assessment of the steel structure strength.
Replace with:
b) where foundation failure occurs before structural failure, structural failure should be determined
by assuming a foundation capacity based on upper bound estimates of soil properties.
The upper bound approach, b) above, provides an assessment of the steel structure strength.
Page 83, 12.5.6
Delete:
— Quasi-static analysis, in which static non-linear analysis procedures are used, with the
environmental actions enhanced by a set of equivalent quasi-static inertial actions representing the
dynamic response. The set of equivalent quasi-static inertial actions may be determined in a manner
analogous to the procedures in 9.8 and A.9.8. A static pushover analysis can then be performed
using the procedure suggested in 12.5.4.
2 © ISO 2013 – All rights reserved

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SIST EN ISO 19902:2008/A1:2014
ISO 19902:2007/Amd.1:2013(E)

Replace with:
— Quasi-static analysis, in which static non-linear analysis procedures are carried out using the
environmental actions enhanced by a set of equivalent quasi-static inertial actions representing the
dynamic response. The set of equivalent quasi-static inertial actions may be determined in a manner
analogous to the procedures in 9.8 and A.9.8. A static pushover analysis can then be performed
using the procedure suggested in 12.5.4.
Page 86, 13.1
After the first paragraph, add:
— For structural shapes, other than circular tubulars, the requirements and recommendations
given in ISO 19901-3 are applicable. ISO 19901-3 provides for specific guidance on detailing and
dimensioning to be taken from an onshore building standard and describes a methodology in which
a correspondence factor is introduced to address any differences in the derivation of the action and
resistance factors of different standards.
Page 92, 13.2.6.2, Equation (13.2-28)
Delete:
3
4
Ct=+04,,40DD21 t μ
()
h
Replace with:
3
4
Ct=+04,,40DD21 t μ
()
h
Page 102, Figure 13.6-1
Delete the figure title:
Typical unstiffened and stiffened conical transition
Replace with:
Typical unstiffened and stiffened conical transitions
Page 128, Figure 14.2-2 h)
Reverse the direction of the arrow corresponding to “500” on the axis of brace “3”, at right of the drawing,
so that the arrowhead points to the right.
Page 132, Figure 14.2-4
Delete:
≥ 600
d
2
Replace with:
≥ d ,
2
≥ 600
Delete:
d /4 ≥ 150
2
Replace with:
≥ d /4,
2
© ISO 2013 – All rights reserved 3

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SIST EN ISO 19902:2008/A1:2014
ISO 19902:2007/Amd.1:2013(E)

≥ 150
Page 139, 14.5
Renumber the existing list as: a) b) c) d).
Page 143, 15.1.4
Renumber the existing list as: a) b) c).
Equation (15.1-2)
Delete:
M
t
σ =
t
2
πDL
pe
Replace with:
2M
t
σ =
t
2
πDL
pe
Page 154, 15.3.6.2
Renumber the existing list as: a) b) c) d) e).
Page 171, 16.8.1
Delete the second paragraph:
A deterministic fatigue analysis method is not recommended for final checking of structures in harsh
fatigue environments. It can find application for screening evaluations during the initial design stages,
or for a final fatigue assessment of structures for which dynamic effects can be neglected and that are
not critically fatigue sensitive. It is included in this International Standard only in order to cover such
general applications. Guidance on dynamically responding structures is given in 16.4.3 and 16.6.4.
Replace with:
A deterministic fatigue analysis method is not recommended for final checking of structures in harsh
fatigue environments. It can find application for screening evaluations during the initial design stages,
or for a final fatigue assessment of structures for which dynamic effects can be neglected and that are
not critically fatigue sensitive. It is included in this International Standard only in order to cover such
general applications. Guidance on dynamically responding structures is given in 16.4.4 and 16.6.3.
Page 182, 17.1.1
Delete the first paragraph:
This clause establishes requirements for foundation design. Pile foundations and, more specifically,
steel cylindrical (pipe) pile foundations are addressed in 17.1 to 17.11. Considerations for the design
of shallow foundations are given in 17.12, while design requirements and guidance can be found in
ISO 19901-4. A.17 contains discussion and guidance on the requirements of Clause 17.
Replace with:
This clause establishes requirements for foundation design. Pile foundations and, more specifically,
foundations consisting of steel cylindrical (pipe) piles or structural caissons (see 6.1.1) with slenderness
ratio L/D ≥ 10, where L is the embedded length and D is the outside diameter, are addressed in 17.1 to
17.11. Guidance for pile foundations with L/D < 10 can be found in ISO 19901-4. Considerations for the
design of shallow foundations are given in 17.12, w
...

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f)   data integration, interpretation, and investigation of geohazards.
This document is applicable to investigation of the seafloor and the sub-seafloor, from shallow coastal waters to water depths of 3 000 m and more. It provides guidance for the integration of the results from marine soil investigations and marine geophysical investigations with other relevant datasets.
NOTE 1   The depth of interest for sub-seafloor mapping depends on the objectives of the investigation. For offshore construction, the depths of investigation are typically in the range 1 m below seafloor to 200 m below seafloor. Some methods for sub-seafloor mapping can also achieve much greater investigation depths, for example for assessing geohazards for hydrocarbon well drilling.
There is a fundamental difference between seafloor mapping and sub-seafloor mapping: seafloor signal resolution can be specified, while sub-seafloor signal resolution and penetration cannot. This document therefore contains requirements for the use of certain techniques for certain types of seafloor mapping and sub-seafloor mapping (similarly, requirements are given for certain aspects of data processing). If other techniques can be shown to obtain the same information, with the same or better resolution and accuracy, then those techniques may be used. Mapping of pre-drilling well-site geohazards beneath the seafloor is part of the scope of this document.
NOTE 2   This implies depths of investigation that are typically 200 m below the first pressure-containment casing string or 1 000 m below the seafloor, whichever is greatest. Mapping of pre-drilling well-site geohazards is therefore the deepest type of investigation covered by this document.
In this document, positioning information relates only to the positioning of survey platforms, sources and receivers. The processes used to determine positions of seafloor and sub-seafloor data points are not covered in this document.
Guidance only is given in this document for the use of marine shear waves, marine surface waves, electrical resistivity imaging and electromagnetic imaging.

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SIST
SIST EN ISO 35102:2022(Main)
Petroleum and natural gas industries - Arctic operations - Escape, evacuation and rescue from offshore installations (ISO 35102:2020)
EN ISO 35102:2021

This document establishes the principles, specifies the requirements and provides guidance for the development and implementation of an escape, evacuation and rescue (EER) plan. It is applicable to offshore installation design, construction, transportation, installation, offshore production/exploration drilling operation service life inspection/repair, decommissioning and removal activities related to petroleum and natural gas industries in the arctic and cold regions.
Reference to arctic and cold regions in this document is deemed to include both the Arctic and other locations characterized by low ambient temperatures and the presence or possibility of sea ice, icebergs, icing conditions, persistent snow cover and/or permafrost.
This document contains requirements for the design, operation, maintenance, and service-life inspection or repair of new installations and structures, and to modification of existing installations for operation in the offshore Arctic and cold regions, where ice can be present for at least a portion of the year. This includes offshore exploration, production and accommodation units utilized for such activities. To a limited extent, this document also addresses the vessels that support ER, if part of the overall EER plan.
While this document does not apply specifically to mobile offshore drilling units (MODUs, see ISO 19905‑1) many of the EER provisions contained herein are applicable to the assessment of such units in situations when the MODU is operated in arctic and cold regions.
The provisions of this document are intended to be used by stakeholders including designers, operators and duty holders. In some cases, floating platforms (as a type of offshore installations) can be classified as vessels (ships) by national law and the EER for these units are stipulated by international maritime law. However, many of the EER provisions contained in this document are applicable to such floating platforms.
This document applies to mechanical, process and electrical equipment or any specialized process equipment associated with offshore arctic and cold region operations that impacts the performance of the EER system. This includes periodic training and drills, EER system maintenance and precautionary down-manning as well as emergency situations.
EER associated with onshore arctic oil and gas facilities are not addressed in this document, except where relevant to an offshore development.

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SIST
SIST EN ISO 19901-5:2022(Main)
Petroleum and natural gas industries - Specific requirements for offshore structures - Part 5: Weight management (ISO 19901-5:2021)
EN ISO 19901-5:2021

This document specifies requirements for managing and controlling the weight and centre of gravity
(CoG) of offshore facilities by means of mass management during all lifecycle phases including;
conceptual design, front end engineering design (FEED), detail engineering, construction and
operations. These can be new facilities (greenfield) or modifications to existing facilities (brownfield).
Weight management is necessary throughout operations, decommissioning and removal to facilitate
structural integrity management (SIM). The provisions of this document are applicable to fixed and
floating facilities of all types.
Weight management only includes items with static mass.
Snow and ice loads are excluded as they are not considered to be part of the facility. Dynamic loads are
addressed in ISO 19904-1, ISO 19901-6 and ISO 19901-7.
This document specifies:
a) requirements for managing and controlling weights and CoGs of assemblies and entire facilities;
b) requirements for managing weight and CoG interfaces;
c) standardized terminology for weight and CoG estimating and reporting;
d) requirements for determining not-to-exceed (NTE) weights and budget weights;
e) requirements for weighing and determination of weight and centre of gravity (CoG) of tagged
equipment, assemblies, modules and facilities;
This document can be used:
f) as a basis for costing, scheduling or determining suitable construction method(s) or location(s) and
installation strategy;
g) as a basis for planning, evaluating and preparing a weight management plan and reporting system;
h) as a contract reference;
i) as a means of refining the structural analysis or model.

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SIST
SIST EN ISO 18797-2:2021(Main)
Petroleum, petrochemical and natural gas industries - External corrosion protection of risers by coatings and linings - Part 2: Maintenance and field repair coatings for riser pipes (ISO 18797-2:2021)
EN ISO 18797-2:2021

This document specifies the selection criteria and minimum requirements for protective coating systems for field maintenance and repair of risers exposed to conditions in the splash zone.
This document does not cover the selection of techniques and materials used to restore integrity of the risers to be coated.
This document neither covers the selection of additional mechanical protective materials that are not part of the described coating systems included in this document.

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SIST-TP CEN ISO/TR 10400:2021(Main)
Petroleum and natural gas industries - Formulae and calculations for the properties of casing, tubing, drill pipe and line pipe used as casing or tubing (ISO/TR 10400:2018)
CEN ISO/TR 10400:2021

This document illustrates the formulae and templates necessary to calculate the various pipe properties given in International Standards, including
— pipe performance properties, such as axial strength, internal pressure resistance and collapse resistance,
— minimum physical properties,
— product assembly force (torque),
— product test pressures,
— critical product dimensions related to testing criteria,
— critical dimensions of testing equipment, and
— critical dimensions of test samples.
For formulae related to performance properties, extensive background information is also provided regarding their development and use.
Formulae presented here are intended for use with pipe manufactured in accordance with ISO 11960 or API 5CT, ISO 11961 or API 5D, and ISO 3183 or API 5L, as applicable. These formulae and templates can be extended to other pipe with due caution. Pipe cold-worked during production is included in the scope of this document (e.g. cold rotary straightened pipe). Pipe modified by cold working after production, such as expandable tubulars and coiled tubing, is beyond the scope of this document.
Application of performance property formulae in this document to line pipe and other pipe is restricted to their use as casing/tubing in a well or laboratory test, and requires due caution to match the heat-treat process, straightening process, yield strength, etc., with the closest appropriate casing/tubing product. Similar caution is exercised when using the performance formulae for drill pipe.
This document and the formulae contained herein relate the input pipe manufacturing parameters in ISO 11960 or API 5CT, ISO 11961 or API 5D, and ISO 3183 or API 5L to expected pipe performance. The design formulae in this document are not to be understood as a manufacturing warranty. Manufacturers are typically licensed to produce tubular products in accordance with manufacturing specifications which control the dimensions and physical properties of their product. Design formulae, on the other hand, are a reference point for users to characterize tubular performance and begin their own well design or research of pipe input properties.
This document is not a design code. It only provides formulae and templates for calculating the properties of tubulars intended for use in downhole applications. This document does not provide any guidance about loads that can be encountered by tubulars or about safety margins needed for acceptable design. Users are responsible for defining appropriate design loads and selecting adequate safety factors to develop safe and efficient designs. The design loads and safety factors will likely be selected based on historical practice, local regulatory requirements, and specific well conditions.
All formulae and listed values for performance properties in this document assume a benign environment and material properties conforming to ISO 11960 or API 5CT, ISO 11961 or API 5D and ISO 3183 or API 5L. Other environments can require additional analyses, such as that outlined in Annex D.
Pipe performance properties under dynamic loads and pipe connection sealing resistance are excluded from the scope of this document.
Throughout this document tensile stresses are positive.

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