Optimizing of mathematical modeling of induced current for electronic anti-fouling system and estimate of system performance under different excitation signal

摘要

A new optimizing method of mathematical analytical modeling of induced current for electronic anti-fouling technology is used in the present study to solve the problem of large calculated amount and complex deducing process caused by traditional segmented function method under different excitation signal, and an exact 2D finite element method is used to calculate induced current in a real electronic anti-fouling system, and the finite element calculation results can fit well with the results calculated by the optimizing analytical model of induced current under the excitation signal with different waveform. Furthermore, the average power density of induced current and the efficiency of energy transformation for EAF system are calculated to estimate the system performance under different excitation signal. The calculation result shows that: 1 the positive - negative square wave excitation signal can make the largest average power density of induced current and the sine wave excitation signal makes the smallest, 2 the sawtooth wave excitation signal can make the highest efficiency of energy transformation and the positive - negative square wave excitation signal makes the lowest.