Techniques for Corrosion Monitoring, Second Edition reviews electrochemical techniques for corrosion monitoring, such as polarization techniques, potentiometric methods, electrochemical noise and harmonic analyses, galvanic sensors, differential flow through cells and multielectrode systems. Other sections analyze the physical or chemical methods of corrosion monitoring, including gravimetric, radioactive tracer, hydrogen permeation, electrical resistance and rotating cage techniques, and examine corrosion monitoring in special environments such as microbial systems, concrete and soil, and remote monitoring and model predictions. A final group of chapters case studies covering ways in which corrosion monitoring can be applied to engine exhaust systems, cooling water systems, and more. With its distinguished editor and international team of contributors, this book is a valuable reference guide for engineers and scientific and technical personnel who deal with corrosion in such areas as automotive engineering, power generation, water suppliers and the petrochemical industry. Provides an in-depth presentation of what current corrosion monitoring techniques are availablePresents insights into how to choose the best technique(s) for specific corrosion monitoring needsIncludes case studies that highlight the main issuesServes as a valuable reference guide for engineers and scientific and technical personnel who deal with corrosion INDICE: 1. Introduction 2. Corrosion fundamentals and characterization techniques, Part I Electrochemical Techniques for Corrosion Monitoring 3. Electrochemical polarization techniques for corrosion monitoring 4. Electrochemical noise for corrosion monitoring 5. Zero resistance ammetry and galvanic sensors 6. Differential flow through cell technique 7. Thermodynamics of corrosion and potentiometric methods for measuring localized corrosion 8. Multielectrode systems, including Corrosion measurements with wire beam electrodes under temporarily protective oil coatings 9. Corrosion sensors based on parameters derived from numerical simulation on medium-range polarization curves (weak polarization analysis) Part II Other physical or chemical methods for corrosion monitoring 10. Thermogravimetric Analysis (TGA) techniques 11. Quartz Crystal Microbalance (QCM) 12. Radioactive tracer methods 13. Electrical resistance techniques 14. Nondestructive evaluation technologies for monitoring corrosion 15. Hydrogen flux measurements in petrochemical applications 16. Rotating cage and jet impingement techniques 17. Acoustic Methods Part III - Corrosion monitoring in particular environments and other issues 18. Corrosion monitoring in microbial environments 19. Corrosion monitoring in concrete 20. Corrosion monitoring in soil 21. Corrosion monitoring under coatings 22. Cathodic protection monitoring 23. Remote monitoring and computer applications 24. Models for predicting corrosion 25. Corrosion Monitoring in Outdoor Environments and Accelerated Atmospheric Chambers 26. Corrosion monitoring for high-temperature systems in refineries Part IV - Applications and case studies 27. Online corrosion monitoring of components in gas turbine power plants 28. Corrosion monitoring in engine exhaust systems 29. Corrosion monitoring in cooling water systems using differential flow cell technique 30. Corrosion monitoring in the pulp and paper industry 31. Advanced corrosion control at chemical plants using a new corrosion monitoring technique 32. Corrosion monitoring under cathodic protection conditions using multielectrode array sensors 33. Corrosion monitoring using the field signature method inspection tool (FSM-IT)
- ISBN: 978-0-08-103003-5
- Editorial: Woodhead Publishing
- Encuadernacion: Rústica
- Páginas: 866
- Fecha Publicación: 05/11/2020
- Nº Volúmenes: 1
- Idioma: Inglés