Experimental-theoretical approach was developed to analyse the heating behavior of carbon steel electrodes cathodically protected in quiescent NaCl 3.5 wt.% solution and exposed to irradiation. Natural and infrared wavelengths induced an increase of electrode surface temperature, enabling to determine oxygen limiting current enhancement. Numerical simulations of laboratory tests performed with infrared wavelength indicated that the Nusselt number ranges between 3.5 and 6, revealing the convective nature of the irradiation depolarization effect. The results obtained in NaCl 3.5 wt.% solution permit us to state that in seawater environment the sunlight depolarizing effect does not affect the current demand for cathodic protection. © 2014 Elsevier Ltd.
Non-isothermal effects induced by natural illumination and infrared irradiation on cathodically polarized carbon steel electrodes
Benedetti A;Zanotti C;Giuliani P;Faimali M
2014
Abstract
Experimental-theoretical approach was developed to analyse the heating behavior of carbon steel electrodes cathodically protected in quiescent NaCl 3.5 wt.% solution and exposed to irradiation. Natural and infrared wavelengths induced an increase of electrode surface temperature, enabling to determine oxygen limiting current enhancement. Numerical simulations of laboratory tests performed with infrared wavelength indicated that the Nusselt number ranges between 3.5 and 6, revealing the convective nature of the irradiation depolarization effect. The results obtained in NaCl 3.5 wt.% solution permit us to state that in seawater environment the sunlight depolarizing effect does not affect the current demand for cathodic protection. © 2014 Elsevier Ltd.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
