- Cathodic protection
Cathodic protection (CP) is a technique to control the
corrosionof a metal surface by making it work as a cathodeof an electrochemical cell. This is achieved by placing in contact with the metal to be protected another more easily corroded metal to act as the anode of the electrochemical cell. Cathodic protection systems are most commonly used to protect steel, water or fuel pipelines and storage tanks, steel pier piles, ships, offshore oil platforms and onshore oil wellcasings.
Cathodic protection can be, in some cases, an effective method of preventing
stress corrosion cracking.
Cathodic protection was first described by Sir
Humphry Davyin a series of papers presented to the Royal Society[Davy, H., Phil. Trans. Roy. Soc., 114,151,242 and 328 (1824)] in London in 1824. After a series of tests, the first application was to the HMS Samarang[Ashworth V., Corrosion Vol. 2, 3rd Ed., 1994, 10:3] in 1824. Sacrificial anodes made from ironwere attached to the coppersheath of the hull below the waterline and dramatically reduced the corrosion rate of the copper. However, a side effect of the CP was to increase marine growth. Copper, when corroding, releases copper ions which have an anti-foulingeffect. Since excess marine growth affected the performance of the ship, the Royal Navydecided that it was better to allow the copper to corrode and have the benefit of reduced marine growth, so CP was not used further.
Today, galvanic or
sacrificial anodes are made in various shapes using alloys of zinc, magnesiumand aluminium. The electrochemical potential, current capacity, and consumption rate of these alloys are superior for CP than iron.
Galvanic anodes are designed and selected to have a more "active" voltage (technically a more negative electrochemical potential) than the metal of the structure (typically
steel). For effective CP, the potential of the steel surface is polarized (pushed) more negative until the surface has a uniform potential. At that stage, the driving force for the corrosion reaction is halted. The galvanic anode continues to corrode, consuming the anode material until eventually it must be replaced. The polarization is caused by the current flow from the anodeto the cathode. The driving force for the CP current flow is the difference in electrochemical potential between the anode and the cathode.
Impressed current CP
For larger structures, galvanic anodes cannot economically deliver enough current to provide complete protection. Impressed current cathodic protection (ICCP) systems use anodes connected to a DC power source (a
cathodic protection rectifier). Anodes for ICCP systems are tubular and solid rod shapes or continuous ribbons of various specialized materials. These include high silicon cast iron, graphite, mixed metal oxide, platinumand niobiumcoated wire and others.
A typical ICCP system for a pipeline would include an AC powered rectifier with a maximum rated DC output of between 10 and 50
amperes and 50 volts. The positive DC output terminal is connected via cables to the array of anodes buried in the ground (the anode groundbed). For many applications the anodes are installed in a 60 m (200 foot) deep, 25 cm (10-inch) diameter vertical hole and backfilled with conductive coke (a material that improves the performance and life of the anodes). A cable rated for the expected current output connects the negative terminal of the rectifier to the pipeline. The operating output of the rectifier is adjusted to the optimum level after conducting various tests including measurements of electrochemical potential.
Electrochemical potentialis measured with reference electrodes. Copper-copper(II) sulfate electrodes are used for structures in contact with soilor fresh water. Silver chloride electrodes are used for seawaterapplications.
Galvanizing(or galvanising, outside of the USA) generally refers to hot-dip galvanizingwhich is a way of coating steel with a layer of metallic zinc. Galvanized coatings are quite durable in most environments because they combine the barrier properties of a coatingwith some of the benefits of cathodic protection. If the zinc coating is scratched or otherwise locally damaged and steel is exposed, the surrounding areas of zinc coating form a galvanic cell with the exposed steel and protect it from corrosion. This is a form of localized cathodic protection - the zinc acts as a sacrificial anode.
A side effect of improperly performed cathodic protection may be production of
hydrogenions, leading to its absorption in the protected metal and subsequent hydrogen embrittlementof welds and materials with high hardness. Under normal conditions, the ionic hydrogen will combine at the metal surface to create hydrogen gas, which cannot penetrate the metal. Hydrogen ions, however, are small enough to pass through the crystalline steel structure, and can in some cases lead to hydrogen embrittlement.
* DNV-RP-B401 - Cathodic Protection Design - Det Norske Veritas
* EN 12068:1999 - Cathodic protection. External organic coatings for the corrosion protection of buried or immersed steel pipelines used in conjunction with cathodic protection. Tapes and shrinkable materials
* EN 12473:2000 - General principles of cathodic protection in sea water
* EN 12474:2001 - Cathodic protection for submarine pipelines
* EN 12495:2000 - Cathodic protection for fixed steel offshore structures
* EN 12499:2003 - Internal cathodic protection of metallic structures
* EN 12696:2000 - Cathodic protection of steel in concrete
* EN 12954:2001 - Cathodic protection of buried or immersed metallic structures. General principles and application for pipelines
* EN 13173:2001 - Cathodic protection for steel offshore floating structures
* EN 13174:2001 - Cathodic protection for harbour installations
* EN 13509:2003 - Cathodic protection measurement techniques
* EN 13636:2004 - Cathodic protection of buried metallic tanks and related piping
* EN 14505:2005 - Cathodic protection of complex structures
* EN 15112:2006 - External cathodic protection of well casing
* EN 50162:2004 - Protection against corrosion by stray current from direct current systems
* BS 7361-1:1991 - Cathodic Protection
* NACE SP0169:2007 - Control of External Corrosion on Underground or Submerged Metallic Piping Systems
* NACE TM 0497 - Measurement Techniques Related to Criteria for Cathodic Protection on Underground or Submerged Metallic Piping Systems
* [http://www.nace.org NACE International] (formerly the National Association of Corrosion Engineers) - largest professional association of CP experts
* US Army Corps of Engineers, " [http://www.usace.army.mil/inet/usace-docs/eng-manuals/em1110-2-2704/toc.htm Engineering and Design - Cathodic Protection Systems for Civil Works Structures] ", Engineering manual 1110-2-2704,
12 July 2004
* [http://www.corrosionist.com/corrosion_control_methods_cathodic_protection.htm Cathodic Protection] - Cathodic Protection Theory and useful documents on Cathodic Protection
* [http://electro-tech-cp.us Cathodic Protection Masonry Clad Steel Frame Buildings] - a helpful basic guide to cathodic protection as it pertains to the Masonry Clad Steel Frame Building (complete with Links to Published Articles)
* [http://www.artikel-software.com/blog/2007/10/25/cathodic-protection/ Cathodic Protection] - manual pdf free download
* [http://www.artikel-software.com/blog/2007/10/25/electrical-engineering-cathodic-protection/ Electrical Engineering Cathodic Protection] - pdf free download
* [http://www.cathodicprotection101.com/ Cathodic Protection 101] - a beginner's guide to cathodic protection offshore
* [http://www.imp-uk.co.uk/ IMP-UK] - specialists in Cathodic Protection and Electronic AntiFouling
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Look at other dictionaries:
Cathodic protection — Cathodic protection. См. Катодная защита. (Источник: «Металлы и сплавы. Справочник.» Под редакцией Ю.П. Солнцева; НПО Профессионал , НПО Мир и семья ; Санкт Петербург, 2003 г.) … Словарь металлургических терминов
cathodic protection — noun : the control of the electrolytic corrosion of an underground or underwater metallic structure (as a pipeline) by the application of an electric current in such a way that the structure is made to act as the cathode instead of anode of an… … Useful english dictionary
cathodic protection — katodinė apsauga statusas T sritis chemija apibrėžtis Metalų apsauga nuo korozijos katodine poliarizacija. atitikmenys: angl. cathodic protection rus. катодная защита … Chemijos terminų aiškinamasis žodynas
cathodic protection — protection of ferrous metals against electrolysis by the attachment of sacrificial anodes. Also called electrolytic protection. [1930 35] * * * … Universalium
cathodic protection — noun protection of a metal structure from corrosion under water by making it act as an electrical cathode … English new terms dictionary
cathodic protection — noun Date: 1930 the prevention of electrolytic corrosion of a usually metallic structure (as a pipeline) by causing it to act as the cathode rather than as the anode of an electrochemical cell … New Collegiate Dictionary
cathodic protection — Смотри катодная защита … Энциклопедический словарь по металлургии
Cathodic Protection — A method of preventing oxidation of the exposed metal in structures by imposing between the structure and the ground a small electrical voltage … Energy terms
cathodic protection — A method of preventing oxidation (rusting) of exposed metal structures, such as bridges and pipelines, by imposing between the structure and the ground a small electrical voltage that opposes the flow of electrons and that is greater than the… … Energy terms
cathodic protection — The action of protecting metal from electrochemical corrosion by using it as the cathode of a cell with a sacrificial anode … Dictionary of automotive terms