A first principles based equation for potential attenuation along a marine pipeline or riser that is cathodically polarized by multiple, equally spaced, identical galvanic anodes and which incorporates the electrolyte (anode), coating, and metallic path resistances, as well as the pipe polarization resistance, has recently been derived. Finite Difference Method solutions for this equation show that the potential profile consists of a relatively abrupt polarization decay within the first several meters of an anode and an essentially constant potential beyond this for cases where anode spacing is less than about one kin (this distance varies with pipe and anode dimensions and properties and with exposure conditions). For anode spacings greater than this, metallic path resistance becomes important such that a potential gradient results along the entire pipe length. Comparison of the FDM solutions for the case of a pipeline of typical dimensions and marine exposure conditions with results from Boundary Element Modeling (BEM) indicates excellent agreement between the two for situations where the metallic resistance is negligible. The potential attenuation projected by the classical equation of Uhlig is shown to be non-conservative compared to the FDM and BEM solutions because of its failure to consider the electrolyte component of circuit resistance. Anode current output determinations based upon the derived equation and upon BEM are also in excellent mutual agreement when anode spacing is relatively short. Beyond a certain distance, which is a function of pipe current demand, BEM underestimates anode current output. It is concluded that the derived equation has utility for design of pipeline cathodic protection systems and for analysis of data therefrom, particularly in cases where anode spacing is sufficiently large that metallic path resistance is non-negligible.


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    Title :

    A newly developed methodology for projection of potential attenuation and anode current output for cathodically polarized pipelines


    Additional title:

    Eine kürzlich entwickelte Methodik für die Projektion der Potentialdämpfung und des Anodenausgangstroms für kathodisch polarisierte Pipelines


    Contributors:
    Hartt, W.H. (author) / Bethune, K.P. (author)


    Publication date :

    2000


    Size :

    13 Seiten, 8 Bilder, 7 Quellen



    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English