• Title of article

    Prognosis of Time to Failure of Corroding Pipelines

  • Author/Authors

    Yasseri, Sirous F Brunel University London, UK , Bahai, Hamid Brunel University London, UK

  • Pages
    10
  • From page
    11
  • To page
    20
  • Abstract
    The oil and gas pipelines are significant assets in Iran. However, these assets are subject to degradation from corrosion. Corrosion causes gradual thinning of the pipelines’ wall leading to leaks or bursts. Allowing a corroding pipeline to continue operation may lead to a finite risk of exceeding the limit state of burst. Codes of practice, such as Modified ASME B31G [1] and DNV F101 [3], among others, have developed relationships to determine the bursting pressure of corroded pipelines. The purpose of this paper is to develop, test, and illustrate a simple spreadsheet-based probabilistic procedure that can be used by practicing engineers to determine the Remaining Useful Life (RUL) of a corroding pipeline, following its first inspection. Modified ASME B31G and DNV F101 equations are used to illustrate this method. As new inspection data regarding the extent of corrosion becomes available, the results can be updated and a new probability of failure can be obtained. The calculated probability of failure is then compared with the target values to determine the remaining life. The approach is equally applicable to both onshore and offshore oil and gas pipelines.
  • Keywords
    Pipeline corrosion , Pipeline integrity management , Remaining useful life (RUL) , Modified B31G , DNV F101 , Fitness-For-Service (FFS) , Reliability assessment , Time-dependent wall thinning , Time to failure
  • Journal title
    Astroparticle Physics
  • Serial Year
    2017
  • Record number

    2467599