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Non-destructive Testing and Repair of Pipelines

  • Evgeny N. Barkanov
  • Andrei Dumitrescu
  • Ivan A. Parinov

Part of the Engineering Materials book series (ENG.MAT.)

Table of contents

  1. Front Matter
    Pages i-xvii
  2. Non-destructive Testing of Transmission Pipelines

    1. Front Matter
      Pages 1-1
    2. Y. N. Mirchev, A. R. Alexiev, A. L. Shekero, S. N. Bukharov
      Pages 3-14
    3. A. Tatarinov, Evgeny N. Barkanov, E. Davydov, M. Mihovski
      Pages 15-29
    4. Y. N. Mirchev, A. L. Shekero, V. V. Kozhushko
      Pages 31-43
    5. A. A. Nasedkina, A. R. Alexiev, J. Malachowski
      Pages 45-61
    6. A. A. Lyapin, Y. Y. Shatilov
      Pages 63-72
    7. A. N. Soloviev, Giang D. T. Nguen, P. V. Vasiliev, A. R. Alexiev
      Pages 91-106
    8. M. A. Sumbatyan, Evgeny N. Barkanov, A. E. Tarasov
      Pages 107-114
  3. Volumetric Surface Defects in Transmission Pipelines

    1. Front Matter
      Pages 115-115
    2. Andrei Dumitrescu, Gh. Zecheru, A. Diniţă
      Pages 117-135
    3. Gh. Zecheru, Andrei Dumitrescu, P. Yukhymets, A. Gopkalo, M. Mihovski
      Pages 137-152
    4. M. I. Chebakov, Gh. Zecheru, V. A. Chebanenko
      Pages 153-165
  4. Materials Used for the Composite Repair Systems of Transmission Pipelines

    1. Front Matter
      Pages 167-167
    2. V. P. Sergienko, S. N. Bukharov, E. Kudina, C. M. Dusescu, I. Ramadan
      Pages 169-189
    3. Evgeny N. Barkanov, M. Wesolowski, P. Akishin, M. Mihovski
      Pages 191-207
    4. V. V. Kozhushko, V. P. Sergienko, Y. N. Mirchev, A. R. Alexiev
      Pages 209-225
    5. P. Yukhymets, R. I. Dmytriienko, I. Ramadan, S. N. Bukharov
      Pages 227-237
  5. Technologies Used for the Composite Repair Systems of Transmission Pipelines

    1. Front Matter
      Pages 239-239
    2. E. Kudina, S. N. Bukharov, V. P. Sergienko, Andrei Dumitrescu
      Pages 241-267
    3. Gh. Zecheru, Andrei Dumitrescu, A. Diniţă, P. Yukhymets
      Pages 269-285
  6. Simulation of Advanced Composite Repair Systems of Transmission Pipelines

    1. Front Matter
      Pages 287-287
    2. A. Diniţă, I. Lambrescu, M. I. Chebakov, Gh. Dumitru
      Pages 289-309
    3. I. Lambrescu, V. A. Chebanenko, D. V. Gusakov, A. V. Morgunova
      Pages 321-338
    4. Evgeny N. Barkanov, I. Lvov, D. A. Beschetnikov
      Pages 353-368
    5. A. S. Skaliukh, M. I. Chebakov, Andrei Dumitrescu
      Pages 369-386
    6. Evgeny N. Barkanov, I. Lvov, P. Akishin
      Pages 387-398
  7. Testing of Advanced Composite Repair Systems of Transmission Pipelines

    1. Front Matter
      Pages 399-399
    2. Gh. Zecheru, Andrei Dumitrescu, P. Yukhymets, R. I. Dmytriienko
      Pages 401-416
    3. R. I. Dmytriienko, S. M. Prokopchuk, O. L. Paliienko
      Pages 417-429
    4. R. I. Dmytriienko, O. L. Paliienko, P. Yukhymets, I. Lvov, O. Marusenko
      Pages 431-447
  8. Evgeny N. Barkanov, Andrei Dumitrescu, Ivan A. Parinov
    Pages E1-E1
  9. Back Matter
    Pages 449-451

About this book

Introduction

This book describes efficient and safe repair operations for pipelines, and develops new methods for the detection and repair of volumetric surface defects in transmission pipelines. It also addresses the physics, mechanics, and applications of advanced materials used for composite repair of corroded pipelines.

Presenting results obtained in the European Commission’s INNOPIPES FRAMEWORK 7 programme, it develops long-range ultrasonic and phased array technologies for pipeline diagnostics, and explores their interactions with discontinuities and directional properties of ultrasonic antenna array. The book subsequently shares the results of non-destructive testing for different types of materials applications and advanced composite repair systems, and characterizes the mechanical properties by means of fracture methods and non-destructive techniques.

In turn, the book assesses the currently available technologies for reinforcement of pipelines, drawing on the expe

rience gained by project partners, and evaluates the recovery of the carrying capacity of pipeline sections with local corrosion damage by means of analytical and numerical procedures. It develops an optimization method based on the planning of experiments and surface techniques for advanced composite repair systems, before validating the numerical models developed and experimentally gauging the effectiveness of composite repair with the help of full-scale hydraulic tests.

Keywords

Processing Techniques of Advanced Materials Mechanics of Advanced Materials Transmission Pipelines Composite Repair Systems Volumetric Surface Defects INNOPIPES FRAMEWORK 7 FP-7 INNOPIPES European gas grid

Editors and affiliations

  • Evgeny N. Barkanov
    • 1
  • Andrei Dumitrescu
    • 2
  • Ivan A. Parinov
    • 3
  1. 1.Institute of Materials and StructuresRiga Technical UniversityRigaLatvia
  2. 2.Petroleum-Gas University of PloiestiPloieştiRomania
  3. 3.Mathematics, Mechanics and Computer Sciences InstituteSouthern Federal UniversityRostov-on-DonRussia

Bibliographic information

  • DOI https://doi.org/10.1007/978-3-319-56579-8
  • Copyright Information Springer International Publishing AG 2018
  • Publisher Name Springer, Cham
  • eBook Packages Engineering
  • Print ISBN 978-3-319-56578-1
  • Online ISBN 978-3-319-56579-8
  • Series Print ISSN 1612-1317
  • Series Online ISSN 1868-1212
  • Buy this book on publisher's site