A 6 kW, 27.12 MHz pilot-scale free running oscillator RF system
(SO6B, Strayfield International, Wokingham, U.K.) together with a
hot air system supplied by a 6 kW electric heater was used for RF
heating experiments (Fig. 1). The RF system mainly comprises a
generator and an applicator consisting of a pair of parallel plate
electrodes inside a large rectangular metallic enclosure (Alfaifi
et al., 2014; Huang et al., 2015). A hot air flow was forced from
the bottom electrode to the sample to provide surface heating and
maintain the sample temperature during holding when the RF
power was turned off.
A 6 kW, 27.12 MHz pilot-scale free running oscillator RF system(SO6B, Strayfield International, Wokingham, U.K.) together with ahot air system supplied by a 6 kW electric heater was used for RFheating experiments (Fig. 1). The RF system mainly comprises agenerator and an applicator consisting of a pair of parallel plateelectrodes inside a large rectangular metallic enclosure (Alfaifiet al., 2014; Huang et al., 2015). A hot air flow was forced fromthe bottom electrode to the sample to provide surface heating andmaintain the sample temperature during holding when the RFpower was turned off.
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