Failure Modes, Effects and Causes of Microbiologically Influenced Corrosion : Advanced Perspectives and Analysis /
Clasificación: | Libro Electrónico |
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Autores principales: | , |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Amsterdam, Netherland ; Cambridge, MA :
Elsevier,
[2020]
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Failure Modes, Effects and Causes of Microbiologically Influenced Corrosion: Advanced Perspectives and Analysis; Failure Modes, Effects and Causes of Microbiologically Influenced Corrosion: Advanced Perspectives and Analysis; Copyright; Dedication; Author Biographies; Foreword; Contents; 1
- Introduction; GENERAL RULE OF CORROSION RISK; "ZUGZWANG EFFECT" AND ITS ROLE IN FMEA; TRIZ and Corrosion Prevention; FIT-FOR-SERVICE AND PSEUDO-FSS STATES; FAILURE COMPONENT OF FMEA; HOW CAN FMEA BE A COMPLEX MATTER IN PRACTICE?
- CORROSION MANAGEMENT DEFINITION AND "JAVAHERDASHTI" CORROSION MANAGEMENT MODELApplication of Javaherdashti CM Model to a Fire Water Ring; FMEA FOR MANAGERS, CORROSION KNOWLEDGE MANAGEMENT; SUMMARY; REFERENCES; 2
- A Touch of Corrosion to Understand Microbial Corrosion; INTRODUCTION; THERMODYNAMICS BEHIND CORROSION AND ITS IMPORTANCE IN THE MANAGEMENT OF CORROSION; THREE ESSENTIALS OF ELECTROCHEMICAL CORROSION; Anodic and Cathodic Reactions; Oxidation: A Wrong Term for a Right Phenomenon; The Undeniable Role of Electrolyte in Electrochemical Corrosion and Microbial Corrosion
- ELECTROCHEMICAL CELLSDifferential Aeration Cells; Differential Concentration Cells; PARALLEL AND SERIES CORROSION SCENARIOS; THE ROLE OF DESIGN IN CORROSION PREVENTION AND CORROSION CONTROL; HOW MUCH ELECTROCHEMISTRY IS NEEDED TO INTERPRET MICROBIAL CORROSION?; SUMMARY; REFERENCES; 3
- Microbiologically Influenced Corrosion (MIC); INTRODUCTION; COMMON FEATURES OF MIC DEFINITIONS; Does MIC Include Microorganism Only?; The Way MIC Is Addressed Wrong; CORROSION-RELATED BACTERIA AND CORROSION-RELATED ARCHAEA; Some Examples of Important CRB and CRA and the Way They can Affect MIC
- Sulfate-reducing bacteriaSulfur-oxidizing bacteria; Iron-oxidizing bacteria; Iron-reducing bacteria; Methanogens; Nitrate-reducing bacteria; Clostridia; Pseudomonas; Thermotogae; HOW CAN CRB DO DAMAGE TO ENGINEERING ASSETS BASED ON THE ENVIRONMENT THE ASSETS ARE IN; Water; Soil; Air; ISSUES RELATED TO MIC; Recognition of MIC; Traditional methods; Advanced methods; Treatment of MIC; Physical-mechanical treatment methods; Physical treatment: coating; Mechanical treatment: pigging; Chemical treatment (with an emphasis on biocides); Biocides versus corrosion inhibitors; Biocide efficacy
- Green biocides and natural biocidesThree issues with biocides; Electrical treatment (cathodic protection); Biological treatment; A Few Words About the Routine Electrochemical Investigation Methods for MIC and Their Pros and Cons; MONITORING OF CORROSION-RELATED BACTERIA; Monitoring by Approach (Microbial Species List); MLS level 1 (MLS L1); MLS level 2 (MLS L2); MLS level 3 (MLS L3); RETURNING TO COMPLETE SOME UNFINISHED BUSINESSES; SUMMARY; REFERENCES; 4
- FMEA-MIC; PREDOMINANT FAILURE MODES IN MIC; Pipeline Integrity Management and POF due to MIC; Precommissioning; Operation; Maintenance