Corrosion Protection of Arctic Offshore Structures: Final Report. [Effects of Temperature and Salinity on Required Cathodic Protection Current]

Results are presented for a research program on corrosion prevention for Arctic offshore structures which are in contact with sea ice for a significant portion of the year. The electrical method most adaptable for structure protection involves the injection of impressed current from several remote a...

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Bibliographic Details
Main Authors: Sackinger, W. M., Rogers, J. C., Feyk, C., Theuveny, B.
Format: Report
Language:English
Published: University of Alaska Fairbanks. Geophysical Institute. 1985
Subjects:
Building Materials
Elements
Alloys
423000 > Engineering > Marine Engineering > (1980-)
36 Materials Science
Current Density
Progress Report
Document Types
Offshore Drilling
Scanning Electron Microscopy
Seawater
Drilling
Polar Regions
Computer Codes
360105 > Metals & Alloys > Corrosion & Erosion
Arctic Regions
Electric Conductivity
Electrical Properties
Materials
Electric Currents
Offshore Platforms
Corrosion Protection
Oxygen
Electrodes
Water 020300* > Petroleum > Drilling & Production
Salinity
Microscopy
42 Engineering
Physical Properties
Oxygen Compounds
Iron Alloys
M Codes
Temperature Effects
Electron Microscopy
Anodes
Cathodic Protection
Steels
Currents
02 Petroleum
Ice
Concretes
Nonmetals
Hydrogen Compounds
Iron Base Alloys
420206 > Engineering > Mining & Drilling Equipment & Facilities > (1980-1989)
Arctic
Sea ice
Online Access:https://doi.org/10.2172/6851513
https://digital.library.unt.edu/ark:/67531/metadc1181512/
Description
Summary:Results are presented for a research program on corrosion prevention for Arctic offshore structures which are in contact with sea ice for a significant portion of the year. The electrical method most adaptable for structure protection involves the injection of impressed current from several remote anodes buried just beneath the sea floor. The electrical resistivity of annual sea ice as a function of temperature and salinity is presented. Details of the interface layers formed between sea ice and steel in the presence of current injection are shown. A computer program was developed to enable the calculation of protective current density into the structure, in the presence of ice rubble and ridges around the structure. The program and the results of an example calculation are given for a caisson- retained island structure. 81 refs., 103 figs., 3 tabs.

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