This work deals with the experimental confirmation of a boundary element model developed for the calculation of current and potential distribution in sacrificial anode or impressed current cathodic protection systems. Tests have been carried out with cell in 3. 5% NaCl solution and under variable hydrodynamic conditions. The cathode was made of a carbon steel sheet divided into small elements on which current and potential have been measured. The data obtained from a computer run are in agreement with experimental results.

(1988). Experimental Confirmation of a Mathematical Model for the Design of Cathodic Protection Systems . Retrieved from http://hdl.handle.net/10446/82277

Experimental Confirmation of a Mathematical Model for the Design of Cathodic Protection Systems

PASTORE, Tommaso;
1988-01-01

Abstract

This work deals with the experimental confirmation of a boundary element model developed for the calculation of current and potential distribution in sacrificial anode or impressed current cathodic protection systems. Tests have been carried out with cell in 3. 5% NaCl solution and under variable hydrodynamic conditions. The cathode was made of a carbon steel sheet divided into small elements on which current and potential have been measured. The data obtained from a computer run are in agreement with experimental results.
1988
Mazza, B.; Pastore, Tommaso; Pedeferri, P.; Taccani, G.; Ferrari, E.; Gasparoni, F.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10446/82277
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