Combined effect of pulsed electric fields and ultrasound on mass energy transfer and diffusion coefficient of plum

The aim of the study was to investigate the impact of combined application of pulsed electric fields (PEF) and ultrasound (US) pre-treatment on drying kinetics, mass transfer and convective water diffusion coefficient on plum fruit. The treatment was performed by using plum fruit in water for uniform distribution of electric conductivity and PEF treatment was applied at 1, 2 and 3 kV/cm, 50 pulses followed by US, 40 kHz with 99% frequency for 30 min and 27 +/- 2 degrees C. Cell disintegration, drying kinetics, mass transfer and diffusion coefficient were calculated, and results showed that plums treated at 3 kV/cm intensity exhibited higher cell disintegration followed by 2 and 1 kV/cm. Furthermore, the investigation of PEF and US pre-treatment for drying kinetics and convective diffusion coefficient revealed that plums treated at 3 kV/cm contributed higher drying rate and convective water diffusion coefficient at uniform, pulse number, temperature and sonication time followed by 2 and 1 kV/cm. This study stated that combined treatment of PEF and US increased the cell disintegration, drying rate and also facilitate convective water diffusion as compared to untreated intact tissues.

Automated summary

The study showed that the combined application of PEF and US at 3 kV/cm intensity had the most significant impact on cell disintegration, drying rate, and convective water diffusion coefficient compared to lower intensities.