ISO/PAS 12835:2013

PUBLICLY ISO/PAS
AVAILABLE 12835
SPECIFICATION
First edition
2013-12-15
Qualification of casing connections for
thermal wells
Qualification des raccordements de boîtiers pour les puits thermiques
Reference number
ISO/PAS 12835:2013(E)
©
ISO 2013

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ISO/PAS 12835:2013(E)

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© ISO 2013
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ISO/PAS 12835:2013(E)

Contents Page
Foreword .v
Introduction .vi
1 Scope .1
2 Normative references .1
3 Terms and definitions .1
4 Abbreviations, symbols and illustrations of selected definitions .5
4.1 Abbreviations . 5
4.2 Symbols . 6
4.3 Illustrations of selected definitions . 7
5 Program flowchart .7
6 Overview and fundamental assumptions of TWCCEP .8
6.1 General . 8
6.2 Main TWCCEP features . 8
6.3 Assessment philosophy and principles .10
6.4 Evaluation variables .14
6.5 Evaluation procedure .17
6.6 Scope of reporting .20
7 Program roles and proprietary design information .20
7.1 Program execution roles .20
7.2 Proprietary connection design information .20
8 Compliance requirements .21
8.1 Compliant evaluation program .21
8.2 Program non-conformances .21
8.3 Performance acceptance .22
8.4 Conformance of results from previous TWCCEP evaluations.22
8.5 Use of data from previous evaluations .22
8.6 Conformance to lower ASLs .23
9 Application severity levels .24
9.1 Thermal well load path .24
9.2 Temperature as controlling parameter .25
9.3 Definition of application severity level .26
9.4 Selection of application severity level .27
10 Program blocks and tasks .27
10.1 Evaluation tasks and sequence — Overview .27
10.2 Critical path tasks .31
11 TWCCEP program specifications .32
11.1 General requirements .32
11.2 Identification of program roles .32
11.3 Identification of candidate connection .33
11.4 Program options .35
11.5 Data from prior evaluations .35
12 Determination of biased test population .35
12.1 Overall description .35
12.2 Initial material property characterization .36
12.3 Specimen configuration analysis .43
13 Specimen procurement .56
13.1 Task description .56
13.2 Specimen pipe procurement .57
13.3 Material property verification .57
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ISO/PAS 12835:2013(E)

13.4 Test specimen machining .59
13.5 Markings .65
13.6 Specimen geometry verification .65
13.7 Procurement and quality control of connection interfacial components .67
13.8 Specimen handling and storage .67
14 Full-scale physical tests and supplementary analyses .68
14.1 Overall task description .68
14.2 Full-scale tests - General requirements .69
14.3 Galling resistance test .73
14.4 Thermal cycle test .78
14.5 Bending evaluation (optional task) .95
14.6 Limit-strain test .104
14.7 As-tested configuration analysis .116
15 Evaluation and inspection reports .116
15.1 Reporting deliverables .116
15.2 Reporting scope and contents .116
15.3 Reporting templates .120
Annex A (normative) FEA modelling guidelines .121
Annex B (informative) Derivations of formulas.127
Annex C (informative) Program role assignments and responsibilities .136
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ISO/PAS 12835:2013(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 (see 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 (see 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: Foreword - Supplementary information
The committee responsible for this document is ISO/TC 67, Materials, equipment and offshore structures
for petroleum, petrochemical and natural gas industries, Subcommittee SC 5, Casing, tubing and drill pipe.
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ISO/PAS 12835:2013(E)

Introduction
This Thermal Well Casing Connection Evaluation Protocol (TWCCEP) provides procedures for
assessment and thereby enables evaluation of suitability of threaded casing connections for service in
intermediate or production casing strings of thermal recovery wells. The TWCCEP defines such wells
as those with operating temperatures that cyclically vary between minimum values appreciably below
180°C and maximum values that range from 180°C to 350°C, in which the casing string is cemented and
the primary axial loading is strain-based.
Throughout this document, a casing connection subject to evaluation is referred to as candidate
connection. A candidate connection denotes a product with unique design features and production
specifications for size, weight, and component materials (including pin, box, and interfacial components).
The TWCCEP assesses the candidate connection’s galling resistance, structural integrity and sealability
under loads typical for connection assembly and thermal-well service. The TWCCEP does not address
impacts of external pressure, incomplete lateral pipe support, rotational fatigue, formation-induced
shear, or environmentally-induced corrosion or cracking.
The TWCCEP’s evaluation procedure includes analysis and full-scale testing. In the analysis, worst-case
combinations of the connection geometry and material properties are determined and specifications
for test specimens are derived. In the full-scale tests, those specimens are subjected to loading
representative of thermal well operations. While the TWCCEP aims to enable a statistically significant
full-scale test, it does not demand a rigorous check of a true statistical placement of the tested sample
responses relative to field connection performance, and thus inherently assumes that the test specimens
are representative of subsequent field connections. For this reason, only connections with the same
design parameters as the candidate connection should be considered representative of the connection
assessed under this protocol.
The extensive effort involved in replicating thermal well field conditions in a laboratory environment
limits the extent of physical testing that can reasonably be undertaken in an evaluation program.
This protocol balances technical rigor and practicality to provide a baseline level of confidence in the
candidate connection’s performance. Connection users should consider the scope of this evaluation
and appropriate additions to address operation-specific conditions. Successful field use of a connection
meeting the requirements of this protocol does not preclude an operator’s need to employ appropriate
product quality assurance measures and field operating practices.
The TWCCEP is the culmination of a thorough review of factors contributing to performance of casing
connections in thermal well applications. This protocol has been developed using input from operators’
descriptions of field practices, manufacturers’ feedback on connection design and production, available
literature, knowledge of past connection qualification programs, and additional analytical and
experimental work performed in support of the protocol development. The TWCCEP is intended to be
maintained and refined as new findings surface.
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PUBLICLY AVAILABLE SPECIFICATION ISO/PAS 12835:2013(E)
Qualification of casing connections for thermal wells
1 Scope
ISO/PAS 12835 is intended for assessment of casing connections for those field applications in which
the design of the casing-connection system is strain-based, and in which primary axial loading is on
the casing-connection system driven by constrained thermal expansion, and in which that primary
loading exceeds the casing-connection system’s yield envelope. Consequently, ISO/PAS 12835 should
be considered as a protocol that is complementary to ISO 13679, which applies to classic elastic-design
applications.
ISO/PAS 12835 describes the structure of the Thermal Well Casing Connection Evaluation Protocol
(TWCCEP) and provides guidelines for its use by new or repeat TWCCEP users, whose familiarity
with the TWCCEP provisions might vary. Clause 6 describes fundamental assumptions adopted in the
TWCCEP.
NOTE The term “user” refers to a party that uses the TWCCEP in a connection evaluation program. That
party might or might not be the same party as a later user of the evaluated connection in a field application.
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the cited edition applies. For undated
references, the latest editions of the reference documents apply.
ASTM A370, Standard Test Methods and Definitions for Mechanical Testing of Steel Products
ASTM E8, Standard Test Methods for Tension Testing of Metallic Materials
ASTM E21, Standard Test Methods for Elevated-Temperature Tension Tests of Metallic Materials
ASTM E831-06, Linear Thermal Expansion of Solid Materials by Thermomechanical Analysis
ISO 9001, Quality management systems — Requirements
1)
ISO 11960, Petroleum and natural gas industries — Steel pipe for use as casing and tubing for wells
ISO 13679:2002, Petroleum and natural gas industries — Procedures for testing casing and tubing
2)
connections
3 Terms and definitions
For the purpose of this document, the following terms and definitions apply.
3.1
ambient temperature
ambient temperature in the facility where a physical testing task is executed
1) Based on API Specification 5CT.
2) Based on API Specification 5C5.
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3.2
application severity level
connection loading specifications assumed to be representative for a range of operational conditions,
which determine the scope of analysis and testing required by the evaluation procedure (3.15) for those
operational conditions
3.3
assigner
party that commissions an evaluation program (3.16)
3.4
average string strain
average axial strain along the controlled elongation interval (3.13) of a specimen string (3.37)
3.5
bend test specimens
subset of candidate connection specimens (3.8) subjected to the optional bending evaluation (3.6) per
the TWCCEP evaluation procedure (3.15)
3.6
bending evaluation
analysis and physical testing conducted to determine a candidate connection’s (3.7) sensitivity to casing
curvature
3.7
candidate connection
casing connection product that is being evaluated by the TWCCEP, and is uniquely defined by its design
features and production specifications with respect to size, weight, and component materials
3.8
candidate connection specimens
a set of connection specimens (3.11, 3.12) that is representative of a candidate connection’s (3.7) design
and features, and is provided for an evaluation program (3.15) of that candidate connection (3.7)
3.9
casing pup
short piece of casing pipe cut from a mother joint
3.10
connection
single design-specific assembly of pin and box and interfacial component(s)
3.11
connection specimen (for threaded and coupled connections)
two connections consisting of a single coupling and two casing pups (3.9) with pin ends joined by that
coupling
3.12
connection specimen (for integral connections)
one connection consisting of one casing pup (3.9) with a box end and one casing pup (3.9) with a pin end
3.13
controlled elongation interval
portion of a specimen string (3.37), along which the elongation is measured and controlled
3.14
effective string length
portion of the total length of a specimen string (3.37) that is assumed to deform appreciably under
mechanical forces in the thermal cycle test (3.44)
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3.15
evaluation procedure
set of analytical and testing tasks required by the TWCCEP to assess performance of the candidate
connection specimens (3.8)
3.16
evaluation program
execution of the TWCCEP to assess performance of a candidate connection (3.7)
3.17
evaluation report
collectively, all documents prepared by an evaluator (3.18), according to applicable TWCCEP reporting
requirements, that describe an evaluation program’s (3.16) execution history and results
3.18
evaluator
party that performs analytical and testing tasks required by an evaluation procedure (3.15)
3.19
excluded connection
connection (3.10) that has been evaluated in a TWCCEP full-scale test but whose performance has been
excluded from comparison with threshold performance requirements (3.45)
3.20
galling
cold welding of contacting material surfaces followed by tearing of metal during subsequent sliding
3.21
high cycle temperature
targeted highest temperature in the thermal cycle test (3.44)
3.22
inspection report
collectively, all documents prepared by an inspector (3.23), according to applicable TWCCEP reporting
requirements, that describe compliance of the executed evaluation program (3.16) with TWCCEP
requirements
3.23
inspector
party that verifies compliance of the executed evaluation program (3.16) with requirements of the
TWCCEP
3.24
interfacial component(s)
design-specific component(s) of a connection (3.10) applied to the pin and box either during their
manufacturing (e.g. coatings) or during the connection assembly (e.g. thread compound)
3.25
limit-strain specimens
subset of candidate connection specimens (3.8) subjected to the limit-strain test (3.26) per the TWCCEP
evaluation procedure (3.15)
3.26
limit-strain test
tension test, to structural failure, of the limit-strain specimens (3.25)
3.27
low cycle temperature
targeted lowest temperature in the thermal cycle test (3.44)
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3.28
make-break specimens
subset of candidate connection specimens (3.8) subjected to multiple make-ups and break-outs per the
TWCCEP evaluation procedure (3.15)
3.29
make-up support pin
pin component of candidate connection (3.7) with seal removed, used to support a coupling’s open end
during make-up and break-out of that coupling’s opposite end
3.30
material coupon
cylindrical section of pipe from which material strip specimens (3.31) are cut
3.31
material strip specimen
longitudinal steel strip cut from a material coupon (3.30) and machined for use in mechanical property
characterization tests
3.32
prior evaluation data
set of data acquired in a connection performance assessment carried out by analysis and/or physical
tests prior to issuance of this protocol and/or according to a procedure/protocol different than the
TWCCEP evaluation procedure (3.15)
3.33
program roles
collective reference to the roles of assigner (3.3), supplier (3.39), evaluator (3.18) and inspector (3.23)
3.34
repairable galling
galling that can be repaired according to a supplier’s (3.39) field-repair procedure for a candidate
connection (3.7)
3.35
severe galling
galling that cannot be repaired according to a supplier’s (3.39) field-repair procedure for a candidate
connection (3.7)
3.36
specimen
used in commentary and/or descriptive context, denotes a generic reference to a connection specimen
(3.11, 3.12) or to a material strip specimen (3.31)
3.37
specimen string
collective reference to a single connection specimen (3.11, 3.12) and/or an in-series assembly of two or
more connection specimens (3.11, 3.12) in a thermal cycle test (3.44)
3.38
substantially qualified party
person/company possessing technical skills and experience necessary to perform a task, as designated
by the assigner (3.3) and the supplier (3.39)
3.39
supplier
party that manufactures a candidate connection (3.7)
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3.40
tensile strain threshold
tensile strain value that a connection specimen (3.11, 3.12) is expected to survive during a limit-strain
test (3.26)
3.41
test specimen
used in commentary and/or descriptive context, denotes a generic reference to a connection specimen
(3.11, 3.12) that is provided for a full-scale test
3.42
thermal cycle
used in commentary and/or descriptive context, denotes a temperature excursion from a low initial
temperature to a high maximum temperature and back to the low initial temperature
3.43
thermal cycle specimens
subset of candidate connection specimens (3.8) subjected to the thermal cycle test (3.44) per the
TWCCEP evaluation procedure (3.15)
3.44
thermal cycle test
thermo-mechanical test of connection specimens (3.11, 3.12), in which several thermal cycles are applied
between the low cycle temperature (3.27) and the high cycle temperature (3.21)
3.45
threshold performance requirements
set of connection performance criteria that candidate connection specimens (3.8) must satisfy in
order for a candidate connection (3.7) to be considered as having met TWCCEP minimum performance
requirements
4 Abbreviations, symbols and illustrations of selected definitions
4.1 Abbreviations
Terms defined in Table 1 denote abbreviations used for descriptive purposes.
Table 1 — List of abbreviations
ASL application severity level
BF fast box taper
BS slow box taper
CSS cyclic steam stimulation
CTE coefficient of thermal expansion
FEA finite element analysis
max. maximum
min. minimum
PF fast pin taper
PS slow pin taper
SAGD steam assisted gravity drainage
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ISO/PAS 12835:2013(E)

TC threaded-and-coupled
TWCCEP thermal wel
...