Corrosion in Amine Treating Units

Corrosion in Amine Treating Units
Author: Johan van Roij
Publisher: Woodhead Publishing
Total Pages: 184
Release: 2021-10-27
Genre: Technology & Engineering
ISBN: 0323915507

Corrosion in Amine Treating Units, Second Edition presents a fully updated resource with a broadened focus that includes corrosion in not only refining operations, but also in oil and gas production. New sections have been added on inhibition, corrosion modeling and metallic coatings. More detailed descriptions of the degradation mechanisms and Integrity Operating Windows (IOW) are now included, as is more in-depth information on guidelines for what sections and locations are most vulnerable to corrosion and how to control corrosion in amine units e.g., using corrosion Loop descriptions and providing indicative integrity operating windows for operation to achieve a suitable life expectance. - Provides new insights on the degradation mechanisms occurring in amine treating units and the locations within the unit where they occur - Discusses how to mitigate and control corrosion in amine units - Provides guidance for setting up corrosion control documents and inspection and maintenance plans for amine treating units

Amine Unit Corrosion in Refineries

Amine Unit Corrosion in Refineries
Author: J Harston
Publisher: Elsevier
Total Pages: 55
Release: 2007-04-18
Genre: Technology & Engineering
ISBN: 184569323X

The corrosion of carbon steels in amine units used for gas treatment in refining operations is a major problem for the petrochemical industry. Maximising amine unit reliability, together with improving throughput, circulation and treatment capacity, requires more effective ways of measuring and predicting corrosion rates. However, there has been a lack of data on corrosion. This valuable report helps to remedy this lack of information by summarising findings from over 30 plants. It covers such amine types as methyl diethanolamine (MDEA), diethanolamine (DEA), monoethanolamine (MEA) and di-isopropanolamine (DIPA), and makes recommendations on materials and process parameters to maximise amine unit efficiency and reliability. - Covers such amine types as Methyl Diethanolamine (MDEA) and Di-isopropanolamine - Makes recommendations on materials and process parameters to maximise amine unit efficiency and reliability

The Progress in Corrosion - The First 50 Years of the EFC

The Progress in Corrosion - The First 50 Years of the EFC
Author: Paul McIntyre
Publisher: CRC Press
Total Pages: 214
Release: 2024-11-15
Genre: Technology & Engineering
ISBN: 1040283489

This book focuses on developments during the first fifty years of existence of the European Federation of Corrosion, and describes the contributions made by its working parties.

Corrosion and degradatio...

Corrosion and degradatio...
Author: François Ropital
Publisher: Editions OPHRYS
Total Pages: 280
Release:
Genre: Corrosion and anti-corrosives
ISBN: 9782710811398

The second section describes the various techniques used in the petroleum industry to protect metallic materials, to detect and to monitor corrosion, in a manner readily accessible to non-specialist readers. --

Corrosion and Degradation of Metallic Materials

Corrosion and Degradation of Metallic Materials
Author: François Ropital
Publisher: Editions technip
Total Pages: 278
Release: 2010
Genre: Technology & Engineering
ISBN: 2710809443

The second section describes the various techniques used in the petroleum industry to protect metallic materials, to detect and to monitor corrosion, in a manner readily accessible to non-specialist readers. --

Corrosion in Refineries

Corrosion in Refineries
Author: J Harston
Publisher: Elsevier
Total Pages: 129
Release: 2014-01-23
Genre: Technology & Engineering
ISBN: 1845693248

Corrosion in ageing refinery plant presents a serious safety hazard. This important book summarises key research into corrosion processes in refinery equipment, how it can be measured and controlled. The book reviews factors affecting corrosion such as carburisation and metal dusting as well as corrosion in steel and other materials used in refinery technology. It considers corrosion in a range of refinery equipment such as storage tanks, HF alkylation units, sour water strippers and insulated units. Other chapters discuss ways of testing for corrosion and cracking in refineries together with integrity and life cycle assessment techniques. There is also coverage of ways of trouble-shooting corrosion problems and preventative measures such as coating systems.With its distinguished editor and team of contributors, Corrosion in refineries is a valuable reference for all those concerned with building and maintaining refineries in the petrochemical industry. - Summarises key research into corrosion processes in refinery equipment - Discusses ways of testing for corrosion and cracking in refineries

Corrosion Under Insulation (CUI) Guidelines

Corrosion Under Insulation (CUI) Guidelines
Author: Gino De Landtsheer
Publisher: Woodhead Publishing
Total Pages: 182
Release: 2020-08-22
Genre: Technology & Engineering
ISBN: 0128233362

Corrosion Under Insulation (CUI) Guidelines: Technical Guide for Managing CUI, Third Edition, Volume 55 builds upon the success of the first two editions to provide a fully up-to-date, practical source of information on how to monitor and manage insulated systems. In the first edition of this book published in 2008, the EFC Working Parties WP13 and WP15 engaged together to provide guidelines on managing CUI with contributions from a number of European refining, petrochemical, and offshore companies. The guidelines were intended for use on all plants and installations that contain insulated vessels, piping, and equipment, and cover a risk-based inspection methodology for CUI, inspection techniques, and recommended best practices for mitigating CUI. The guidelines include design of plant and equipment, coatings and the use of thermal spray techniques, types of insulation, cladding/jacketing materials, and protection guards. Corrosion-under-insulation (CUI) refers to the external corrosion of piping and vessels that occurs underneath externally clad/jacketed insulation as a result of the penetration of water. By its very nature CUI tends to remain undetected until the insulation and cladding/jacketing is removed to allow inspection, or when leaks occur. CUI is a common problem shared by the refining, petrochemical, power, industrial, onshore and offshore industries. - Provides revised and updated technical guidance on managing CUI provided by EFC Working Parties 13 and 15 - Discusses the standard approach to risk based inspection methodology - Presents the argument that CUI is everywhere, and looks at mitigating actions that can be started from the onset - Includes a wide array of concepts of corrosion mitigation

Corrosion Under Insulation (CUI) Guidelines

Corrosion Under Insulation (CUI) Guidelines
Author:
Publisher: Woodhead Publishing
Total Pages: 163
Release: 2015-11-26
Genre: Technology & Engineering
ISBN: 0081007396

Corrosion-under-insulation (CUI) refers to the external corrosion of piping and vessels that occurs underneath externally clad/jacketed insulation as a result of the penetration of water. By its very nature CUI tends to remain undetected until the insulation and cladding/jacketing is removed to allow inspection or when leaks occur. CUI is a common problem shared by the refining, petrochemical, power, industrial, onshore and offshore industries. In the first edition of this book published in 2008, the EFC Working Parties WP13 and WP15 engaged together to provide guidelines on managing CUI with contributions from a number of European refining, petrochemical and offshore companies. The guidelines are intended for use on all plants and installation that contain insulated vessels, piping and equipment. The guidelines cover a risk-based inspection methodology for CUI, inspection techniques and recommended best practice for mitigating CUI, including design of plant and equipment, coatings and the use of thermal spray techniques, types of insulation, cladding/jacketing materials and protection guards. The guidelines also include case studies. The original document first published in 2008 was very successful and provided an important resource in the continuing battle to mitigate CUI. Many members of the EFC corrosion community requested an update and this has taken between 18-24 months to do so. Hopefully this revised document will continue to serve the community providing a practical source of information on how to monitor and manage insulated systems. Revised and fully updated technical guidance on managing CUI provided by EFC Working Parties WP13 and WP 15 Contributions from a number of European refining, petrochemical and offshore companies Extensive appendices that provide additional practical guidance on the implementation of corrosion-under-insulation best practice, collected practical expertise and case studies

Corrosion Issues in Light Water Reactors

Corrosion Issues in Light Water Reactors
Author: D Féron
Publisher: Elsevier
Total Pages: 369
Release: 2007-06-22
Genre: Technology & Engineering
ISBN: 1845693469

Stress corrosion cracking is a major problem in light water nuclear reactors, whether pressurised water reactors (PWRs) or boiling water reactors (BWRs). The nuclear industry needs to be able to predict the service life of these power plants and develop appropriate maintenance and repair practices to ensure safe long term operation. This important book sums up key recent research on corrosion in light water reactors and its practical applications.The book is divided into four parts. It begins with an overview of materials degradation due to stress corrosion, corrosion potential monitoring and passivation. Part two summarises research on susceptibility of materials to stress corrosion cracking and the ways it can be initiated. The third part of the book considers stress corrosion crack propagation processes whilst the final part includes practical case studies of corrosion in particular plants. The book reviews corrosion in a range of materials such as low alloy steels, stainless steels and nickel-based alloys.With its distinguished editor and team of contributors, Corrosion issues in light water reactors is a standard work for the nuclear industry. - Summarises key recent research on corrosion in light water reactors - Includes practical case studies

Recommended Practice for Corrosion Management of Pipelines in Oil & Gas Production and Transportation

Recommended Practice for Corrosion Management of Pipelines in Oil & Gas Production and Transportation
Author: Bijan Kermani
Publisher: CRC Press
Total Pages: 159
Release: 2017-12-02
Genre: Science
ISBN: 1351419471

First Published in 2017. Pipeline integrity is key to maintaining operational success, safety and security and minimising harm to the environment. Corrosion is a dominant contributory factor to failures, leaks and integrity threats in pipelines. Therefore, its optimum control within an integrity management framework is paramount for the cost-effective design of facilities and ensuring continued, uninterrupted and safe operations within the expected design life. This recommended practice (RP) is a compendium of current best practices and state-of-the-art knowledge by major operators, engineering contractors and service companies involved in hydrocarbon pro-duction and transportation. The RP incorporates some minimum operational requirements and practices to ensure that when man-aging corrosion in pipelines, fundamental principles are followed. It covers management of corrosion for pipelines carrying hydrocarbons, injection water and/or produced water from design to decommissioning. It is structured to follow the logical steps of a basic corrosion management process and makes references to relevant and available international standards and/or recommended practices. It is intended for use by personnel from the petroleum industry having knowledge of corrosion and materials. It is hoped that this RP will prove to be a key reference document for engineers, suppliers and con-tractors working in the oil and gas industry, paving the way for corrosion-free operation of pipelines with the ultimate goal of improving safety, security and minimising the impact on the environment