This paper addresses the safe and cost-effective selection and use of carbon steel, both as a flowline and as a trunkline (hereinafter referred to as 'pipeline') material in a consistent manner. Carbon steel should be included as the base case of any hydrocarbon pipeline systems materials selection exercise. It is important that all relevant corrosion management issues are adequately addressed at each stage of the business cycle, to facilitate the safe and cost-effective selection and use of carbon steel as a pipeline material. The materials and corrosion engineer has a key role to play in a multi-disciplined team with the design engineers, to ensure that the corrosion risks are adequately addressed during the design stage. The constraints applied by the materials and corrosion engineer at the design stage must be fully appreciated by staff later involved in operating an installation. Equally the maximum benefits should be taken of corrosion monitoring and inspection data in the day to day operation of equipment for ensuring technical integrity at minimum cost as long as it is required. (VDEh)
Carbon steel pipeline corrosion engineering: life cycle approach
Korrosionstechnik für Rohrleitungen aus Kohlenstoffstahl: Lebenszyklus-Methode
2001
31 Seiten, 6 Bilder, 8 Tabellen, 10 Quellen
Aufsatz (Konferenz)
Englisch
Life Cycle Analysis of Pipeline Networks
Springer Verlag | 2023
|Pitting corrosion in pipeline steel weld zones
Tema Archiv | 2011
|A Life Cycle Systems Engineering Approach to Sustainment
British Library Conference Proceedings | 2003
|Online Contents | 1995
|