Significantly extended from the first edition, this book presents the basics of microbiologically influenced corrosion (MIC) in an accessible and concise manner. It explores strategies for recognizing, understanding, mitigating and preventing this type of corrosion, and investigates this topic from the point of view of an engineer. Chapters cover issues including stress corrosion cracking and microbial corrosion, the pros and cons of biocides, the involvement of magnetic bacteria in microbial corrosion, and cathodic protection based on recent research in microbial environments. The 2nd Edition provides new material examining the following topics: *The corrosion-related bacteria clostridia *Mathematical modelling of MIC, in particular fuzzy logic *A comparison of culture-independent methods with culture-dependent methods *Further practical strategies for dealing with MIC *Natural biocidesThis book has provided course material for the author's microbial corrosion workshops around the world, and it presents an invaluable resource to corrosion and integrity professionals working in a wide range of industries including power generation, oil and gas, marine, and mining. It is also intended for students and academics of corrosion engineering, materials science, microbiology, chemical engineering and welding.

Failure Modes, Effects and Causes of Microbiologically Influenced Corrosion: Advanced Perspectives and Analysis presents academic research about microbial corrosion (MIC), integrating it into engineering applications that result in a more thorough understanding of MIC and how it is recognized and treated. In addition, new concepts that will be useful in understanding integrity and corrosion management practices are explored. This book will be useful for industry professionals, particularly maintenance and operation engineers, corrosion and material engineers, and R&D personnel working in the field of corrosion protection.

The advancement of methods and technologies in the oil and gas industries calls for new insight into the corrosion problems these industries face daily. With the application of more precise instruments and laboratory techniques as well as the development of new scientific paradigms, corrosion professionals are also witnessing a new era in the way data are gathered and interpreted. Corrosion and Materials in the Oil and Gas Industries draws on state-of-the-art corrosion and materials technology as well as integrity management to offer guidance on dealing with aging and life extension in the oil and gas industries. Get Expert Insights on Corrosion Identification, Prevention, and Mitigation The book features contributions by engineers, scientists, and business managers from around the world, including major oil- and gas-producing and -exporting countries. Organized into four parts, the book first provides introductory and background information. The second part explains the properties of construction materials and the underlying mechanisms of degradation, including a chapter on microbiologically influenced corrosion. The third part of the book delves into inspection and maintenance issues, examining material selection, corrosion prevention strategies, and the role of design. It also supplies models to help you estimate corrosion damage and select mitigation and monitoring techniques. The fourth part tackles corrosion hazards, safety and risk, and reliability. It also links corrosion mitigation and the management of asset integrity, highlighting the need for companies to maintain their infrastructure to remain competitive. Interpret Field Findings More Confidently and Discover Solutions to Your Corrosion Problems Throughout, this richly illustrated book combines theory with practical strategies and examples from industry. As infrastructure ages and is pushed beyond its original design life to meet increasing energy demands, it is essential that those responsible for managing the infrastructure have a thorough understanding of material degradation and corrosion. This book is an invaluable reference for anyone involved in corrosion management and materials selection, particularly in the oil and gas industries, whether upstream, midstream, or downstream.

Biological Treatment of Microbial Corrosion: Opportunities and Challenges explores the latest biological approaches to microbial corrosion and its inhibition. The book provides comprehensive information on the current knowledge of microbes involved in corrosion and their mechanisms of action on corrosion induction and inhibition. This information is helpful for a wide range of audiences, from university researchers, to industry specialists. The book discusses foundational information about corrosion and microbiologically influenced corrosion and its importance. Other chapters provide an in-depth review of corrosion causing microorganisms, their properties and their mechanism of involvement in MIC. Updated findings on the biological treatment of corrosion are addressed, as are future opportunities and challenges that could lead to prosperous, sustainable and secure industrial application of these techniques.

Hydrostatic Testing, Corrosion, and Microbiologically Influenced Corrosion: A Field Manual for Control and Prevention teaches industry professionals, managers, and researchers how to combat corrosion failure associated with hydrotesting. It discusses how a test liquid must be selected, how corrosion by bacteria should be controlled, and how to eliminate the risk of leakage. Rather than teaching how hydrotests should be conducted, it helps the reader evaluate the quality of a hydrotest that's already been conducted in terms of oxygen scavenger use, biocide testing, inhibitor addition, and water quality and explains the tasks that top and middle management must ensure are taken with respect to corrosion assessment of hydrotesting. The manual also discusses microbiologically influenced corrosion (MIC) as the main corrosion mechanism related to post-hydrotesting and offers essential knowledge on combating this corrosion process. In addition to being a manual for top and middle management on how to deal with corrosion, this book also:

Significantly extended from the first edition, this book presents the basics of microbiologically influenced corrosion (MIC) in an accessible and concise manner. It explores strategies for recognizing, understanding, mitigating and preventing this type of corrosion, and investigates this topic from the point of view of an engineer. Chapters cover issues including stress corrosion cracking and microbial corrosion, the pros and cons of biocides, the involvement of magnetic bacteria in microbial corrosion, and cathodic protection based on recent research in microbial environments. The 2nd Edition provides new material examining the following topics: *The corrosion-related bacteria clostridia *Mathematical modelling of MIC, in particular fuzzy logic *A comparison of culture-independent methods with culture-dependent methods *Further practical strategies for dealing with MIC *Natural biocidesThis book has provided course material for the author's microbial corrosion workshops around the world, and it presents an invaluable resource to corrosion and integrity professionals working in a wide range of industries including power generation, oil and gas, marine, and mining. It is also intended for students and academics of corrosion engineering, materials science, microbiology, chemical engineering and welding.

Microbiologically influenced corrosion (MIe is basically an electrochemical corrosion in which the extent and severity of the corrosion process is determined by organisms such as, but not limited to, bacteria. This work will discuss both electrochemical and mechanical features of MIC of three types of steels of frequent use, that is, mild, stainless and duplex stainless steels. The bacteria investigated in this study are single-type cultures of marine isolates of sulphate reducing bacteria, iron reducing bacteria as well as their mixed cultures. This is important because in nature, it is the impact of mixed communities of bacteria that can affect corrosion of engineering materials. Also, to the best knowledge of this author, for the first time the stress corrosion cracking of these steels in biotic cultures containing these bacteria have been characterised and compared with abiotic environments. In conducting this research, techniques such as SSRT (for conducting mechanical tests), OCP (as one of the safest electrochemical methods for studying MIe as well as XRD, EDXA and metallography have been employed.

Hydrostatic Testing, Corrosion, and Microbiologically Influenced Corrosion: A Field Manual for Control and Prevention teaches industry professionals, managers, and researchers how to combat corrosion failure associated with hydrotesting. It discusses how a test liquid must be selected, how corrosion by bacteria should be controlled, and how to eliminate the risk of leakage. Rather than teaching how hydrotests should be conducted, it helps the reader evaluate the quality of a hydrotest that's already been conducted in terms of oxygen scavenger use, biocide testing, inhibitor addition, and water quality and explains the tasks that top and middle management must ensure are taken with respect to corrosion assessment of hydrotesting. The manual also discusses microbiologically influenced corrosion (MIC) as the main corrosion mechanism related to post-hydrotesting and offers essential knowledge on combating this corrosion process. In addition to being a manual for top and middle management on how to deal with corrosion, this book also: