ДСТУ CEN ISO/TR 10400:2021 Нефтяная и газовая промышленность. Формулы и расчеты для определения характеристик обсадных, насосно-компрессорных, бурильных труб и труб, применяемых как обсадные или насосно-компр...

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«Український науково-дослідний і навчальний центр
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(ДП «УкрНДНЦ»)

Наказ від 12.03.2021 № 88

CEN ISO/TR 10400:2011

Petroleum and natural gas industries -
Equations and calculations for the properties of casing,
tubing, drill pipe and line pipe used as casing or tubing
(ISO/TR 10400:2007)

прийнято як національний стандарт
методом підтвердження за позначенням

ДСТУ CEN ISO/TR 10400:2021
(CEN ISO/TR 10400:2011, IDT; ISO/TR 10400:2007, IDT)

Нафтова та газова промисловість.
Формули та розрахунки для визначання характеристик обсадних,
насосно-компресорних, бурильних труб і труб,
що їх застосовують як обсадні або насосно-компресорні

З наданням чинності від 2021-03-15

Відповідає офіційному тексту

З питань придбання офіційного видання звертайтесь
до національного органу стандартизації
(ДП «УкрНДНЦ» http://uas.org.ua)

Contents

Foreword

Introduction

1 Scope

2 Conformance

2.1 Normative references

2.2 Units of measurement

3 Normative references

4 Terms and definitions

5 Symbols

6 Triaxial yield of pipe body

6.1 General

6.2 Assumptions and limitations

6.3 Data requirements

6.4 Design equation for triaxial yield of pipe body

6.5 Application of design equation for triaxial yield of pipe body to line pipe

6.6 Example calculations

7 Ductile rupture of the pipe body

7.1 General

7.2 Assumptions and limitations

7.3 Data requirements

7.4 Design equation for capped-end ductile rupture

7.5 Adjustment for the effect of axial tension and external pressure

7.6 Example calculations

8 External pressure resistance

8.1 General

8.2 Assumptions and limitations

8.3 Data requirements

8.4 Design equation for collapse of pipe body

8.5 Equations for empirical constants

8.6 Application of collapse pressure equations to line pipe

8.7 Example calculations

9 Joint strength

9.1 General

9.2 API casing connection tensile joint strength

9.3 API tubing connection tensile joint strength

9.4 Line pipe connection joint strength

10 Pressure performance for couplings

10.1 General

10.2 Internal yield pressure of round thread and buttress couplings

10.3 Internal pressure leak resistance of round thread or buttress couplings

11 Calculated masses

11.1 General

11.2 Nominal masses

11.3 Calculated plain-end mass

11.4 Calculated finished-end mass

11.5 Calculated threaded and coupled mass

11.6 Calculated upset and threaded mass for integral joint tubing and extreme-line casing

11.7 Calculated upset mass

11.8 Calculated coupling mass

11.9 Calculated mass removed during threading

11.10 Calculated mass of upsets

12 Elongation

13 Flattening tests

13.1 Flattening tests for casing and tubing

13.2 Flattening tests for line pipe

14 Hydrostatic test pressures

14.1 Hydrostatic test pressures for plain-end pipe, extreme-line casing and integral joint tubing

14.2 Hydrostatic test pressure for threaded and coupled pipe

15 Make-up torque for round thread casing and tubing

16 Guided bend tests for submerged arc-welded line pipe

16.1 General

16.2 Background

17 Determination of minimum impact specimen size for API couplings and pipe

17.1 Critical thickness

17.2 Calculated coupling blank thickness

17.3 Calculated wall thickness for transverse specimens

17.4 Calculated wall thickness for longitudinal specimens

17.5 Minimum specimen size for API couplings

17.6 Impact specimen size for pipe

17.7 Larger size specimens

17.8 Reference information

Annex A (informative) Discussion of equations for triaxial yield of pipe body

Annex B (informative) Discussion of equations for ductile rupture

Annex C (informative) Rupture test procedure

Annex D (informative) Discussion of equations for fracture

Annex E (informative) Discussion of historical API collapse equations

Annex F (informative) Development of probabilistic collapse performance properties

Annex G (informative) Calculation of design collapse strength from collapse test data

Annex H (informative) Calculation of design collapse strengths from production quality data

Annex I (informative) Collapse test procedure

Annex J (informative) Discussion of equations for joint strength

Annex K (informative) Tables of calculated performance properties in SI units

Annex L (informative) Tables of calculated performance properties in USC units

Bibliography