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NEW EDITION!! For nearly 50 years Control of Pipeline Corrosion, written by A.W. Peabody, has been the most trusted resource in the field of pipeline corrosion. Now completely revised and updated, the third edition of this classic reference continues the tradition of excellence by providing the most thorough and authoritative coverage of the prevention and control of pipeline corrosion, and now includes a chapter on AC interference.
Peabody's Control of Pipeline Corrosion, Third Edition, edited by Ronald Bianchetti, blends traditional corrosion engineering practices with modern technologies to make this the single source for corrosion control. Chapters have updated information and graphics to expand on the user-friendly nature of the original book.
2018 NACE E-Book.
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Surface Applied Corrosion Inhibitors (SACI) remain controversial as to effectiveness and the ability to compare materials from different manufacturers and technologies. These materials are liquids applied to the surface of concrete to control the corrosion of embedded reinforcing steel. This presentation will discuss the performance and relative importance of a recent testing program for corrosion inhibition and other performance parameters using documented test methods.
Corrosion control methods for structures made of steel-reinforced portland cement concrete. Causes of corrosion of the reinforcing steel and control methods.
This standard, SSPC-SP 14 (WAB)/NACE WAB-8, defines the "Industrial" level of surface cleanliness for wet abrasive methods. Other levels in overview below.
This standard, SSPC-SP 6 (WAB)/NACE WAB-3, defines the "Commercial" level of surface cleanliness for wet abrasive methods. One of five wet abrasive (WAB) levels: (White Metal, Near-White Metal, Commercial, Industrial, Brush-Off)
This standard, SSPC-SP 7 (WAB)/NACE WAB-4, defines the "Brush-Off" level of surface cleanliness for wet abrasive methods. One of five wet abrasive (WAB) levels: (White Metal, Near-White Metal, Commercial, Industrial, Brush-Off)
Sustainable concrete repair products can extend the time in between repair cycles and increase the service life of a structure. This will discuss the fact that based on 10+ years of field and laboratory testing, organofunctional silane corrosion inhibitors are effective at corrosion mitigation, thus decreasing the frequency and extent of repairs. Evaluation on new concrete also showed a predicted increase in time to corrosion initiation when compared to untreated reinforced concrete specimens. Modeling results were verified in a 2-year laboratory study.
This book presents new developments that have affected the commercial use of chemicals and devices to clean industrial equipment. This second edition will emphasize the mechanisms of important cleaning processes and solvents and will give an overview of the science and technology of the formation and removal of fouling deposits in the industrial equipment environment. It is directed to a general technically trained audience, with emphasis placed on the basic chemical and mechanical principles of industrial cleaning (IC).
The decomposition process of ancient marine species in the seabed for millions of years coupled with the presence of specific geological conditions such as high pressures and temperatures led to the formation of what is known today as fossil fuels. For this reason, they can be found either on the earth's surface where ancient seas were located or beneath the seabed. Considering that the ocean covers three-quarters of the Earth's surface the offshore oil and natural gas exploration entail an enormous economic and strategic benefit.1
Mitigating oil and gas production with chemical inhibitors is challenging when high temperature (>120°C) and H2S is present. The high temperatures associated with deep wells and thermal recovery methods demand an advancement in conventional inhibitor technologies. Traditional organic inhibitors struggle to protect carbon steel assets lending them susceptible to localized corrosion in sour environments. These environments require inhibitors with a combined thermal stability and persistency to provide uniform filming and corrosion protection.
For high temperature corrosion applications imidazoline chemistry ranks highly as a chemistry likely to be able to mitigate corrosion at elevated temperatures. However, at temperatures between 120 and 150°C performance is very system specific while over 150°C performance can be severely limited. An extensive in-house screening program was undertaken which identified a generic chemistry (pyrimidine) that exhibited the required performance characteristics up to 175°C for a variety of field applications. Based on this work, several other materials exhibited performance benefits for alternate applications, for instance high temperature, deep water applications. Laboratory testing of the novel corrosion inhibitors at high temperatures, also highlighted the limitations of corrosion test methodologies for evaluating inhibitors under extreme conditions.