Abstract

The effect of material size on the amount and uniformity of power absorbed during microwave heating was evaluated by numerical and experimental methods. A three-dimensional (3D) mathematical model, based on the Maxwell's equations of electromagnetism, was solved using the Finite Element Method to predict the power dissipated in the sample. Experimental analysis was performed using a domestic oven and distilled water. Experimental and numerical results showed a good agreement to each other. However, a complex relationship exists between sample size and absorbed power. The modification of the resonance modes in the oven when the sample size is changed may explain it. Furthermore, heating uniformity decreases as the water load size increases because microwave power dissipation occurs mostly near the sample surface due to a lower intensity of resonances inside large samples.

Keywords:
Numerical simulation; microwave heating pattern; load size

HIGHLIGHTS

• A theoretical model has been developed to evaluate the microwave heating in a domestic oven.

• The energy efficiency is function of the sample size.

• Small samples obtain better heating uniformity.