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Flour (wheat) E. faecium and S. enteritidis Frequency: 27 MHzTime: 39 min [71] Instant Controlled Pressure Drop Technology Apple Pomace Aspergillus niger Pressure: 0.2–0.6 MPa [77, 100] Dried Carrots Flora of the bacteria Pressure: 3 kPaTemperature: 70 °CTime: 3 h [98] Seaweed Salmonella spp. Pressure: 0.44 MPaTime: 40s [76] Flour (banana) Colonies of bacteria Pressure: 3–5 kPa [99] Ohmic Heating Apple juice Salmonella Typhimurium, E. coli & L. monocytogenes 30 V/cmTime: 60 s°Brix: 36 [87] Tomato soup GeobacillusStearothermophilus Frequencies: 60 Hz & 10 kHzTime intervals: 0, 15, 60, 120 sTemperature: 121°C, 125°C & 130°C [83] Meat balls L. innocua HTST: 50 Hz8.33 V/cmTemperature: 95°CTime: 7 min [88] Gochujang Bacillus cells (vegetative) Frequency: 60 Hz30 V/cmTemperature: 100°CTime: 2.5 min [79]

      2.6.2 Microwave Heating

       2.6.2.1 Principle and Mechanism

      The heating principle of the microwave is on the interaction between the sample and electric field, resulting in ionic and dipole interaction, a movement finally converted into heat. According to an FAO/WHO Expert Committee on Food Safety report, “the radiation of any food product up to a total average dose of 1000W has proven to present no radiological hazard”. Microwave radiation has been used as an efficient alternative in microbial load reduction of a few food powders. However, despite the advantages of microwave treatment the formation of “cold spots” within food powder where harmful bacteria initiates its growth under favorable conditions limited its industrial application. Numerous researches over the years on microwave discovered that the effectiveness of microwave treatments on microorganism decontamination depends on important attributes, is Microwave=f (microwave power, microwave temperature, sample thickness, and treatment time) [60].

      Ions present in the solution, when suspended to the electric field, orient themselves, experiencing acceleration and an upsurged kinetic energy. When ions collide with each other it gets converted into heat. This frequent collision increases the density or the concentration of the solution, which is also known as the ionic polarization effect [61]. Where in gases the collision becomes difficult due to the spacing between the molecules. In food material, cations are generated by the presence of salts of sodium, potassium, or calcium whilst chlorine produces anions.

      When the polar molecule strives to situate itself into the fluctuating electric field caused by the microwave, the dipole rotation is created, where the oscillation of the dipolar species leads to the collision with the surrounding producing heat [62]. With the increase in temperature, the dipole movement decreases whereas ionic conduction increases hence, food samples with both the compounds when heated by the microwave, first governed by the dipole rotation and then with the increase in temperature governed by ionic conduction. The comparative involvement of these methods of heating hinges on the concentration and flexibility of sample ions, plus the sample’s relaxation time [63].

       2.6.2.2 Application for Inactivation in Food Sector

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