Thermal Food Engineering Operations. NITIN KUMAR
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Название: Thermal Food Engineering Operations

Автор: NITIN KUMAR

Издательство: John Wiley & Sons Limited

Жанр: Техническая литература

Серия:

isbn: 9781119776413

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СКАЧАТЬ in black pepper were studied by [64] which programmed for 2 min at 50 °C with a power level of 800W. These three-microorganism got reduced to a log cycle of 6 which would hold up to 3 mins with a sample thickness of 3cm. Microwave treatment was performed on infant formula powder targeting Cronobacter sakazakii studied by [65]. At 800 and 900W the log reduction 5 log cycle. [66] currently studied the inactivation rate of Aspergillus niger present in garlic which resulted in reduction varying between 1.12 and 1.16 at a microwable temperature of 50 °C. This experiment was conducted using a microwave drum dryer using Weibull, Page, and Bigelow models. Therefore, this model proved to be perfectly fitted to predict the reduction rate of inactivation of Aspergillus niger. From all the above case studies it was inferred that treating the food products with microwave proves to be promising for a wide range of products on an industrial scale as it maintains the quality and preserves the nutritional aspects of the products. Though there are studies with different vegetables, more research has to be conducted to verify the exact nature retained at the end of the experiment for various other food powder products and which could be done on a wider scale level.

      2.6.3 Radiofrequency Heating

       2.6.3.1 Principle and Mechanism

      In the electromagnetic spectrum, radiofrequency waves fall in a frequency range of 30–300 MHz. This method works depends upon the dielectric properties of the edible sample, where with help of an indirect mode of heating they treat the target product initially with electrical energy which is then converted to radiation mildly releasing the heat [67]. Radiation from radiofrequency are non-ionizing so therefore the food molecules are not disoriented, which is the main bonus point in the process of microbial inactivation. The advantages of this process are the time consumption which is reduced remarkably, making it a feasible application in food industries for different unit operation.

      Some of the chief factors on which efficacy is highly dependent for the treatment of microbial decontaminations are moisture content of the sample, temperature a frequency, targeted microorganism, and sample depth. The current study suggested that the frequency of the microwave makes the condition favorable for microbial decontamination even if it exists in food with lower moisture content. This method favors all types of food material as it works as electrothermal pasteurization which is chemical-free [68].

       2.6.3.2 Application for Inactivation in Food Sector

      Authentication of microbial content using radiofrequency heating was done for wheat by [71]. The log reduction microorganisms Enterococcus faecium and Salmonella enteritidis were investigated. It was calculated that it took 18 min for Salmonella enteritidis and 25mins for Enterococcus faecium to reach 5 log reduction at 85°C. Similarly, [72] studied the effect of radiofrequency heating the same pepper to decontaminate Salmonella typhimurium by adjusting the aw to 0.57-0.71. The outcome was a reduction of the log cycle between 2-3. Another study was carried by [73] utilizing radiofrequency for the 80s at 90 °C for dried black pepper and the outcome was a remarkable reduction 7 log cycle of S. Typhimurium and E. coli. When this log reduction is compared with infrared and microwave, it was the best and highest, but got a little demerit as the moisture content was reduced drastically. Similarly, [74] used broccoli for their experimental research to treat it at 6 kW which showed a reduction by 4.2 and maintaining the quality attributes and preserve the color from degradation. Therefore, mesophilic bacteria work best in radiofrequency heating by attaining the desired log reduction and also maintaining and preserving the quality, sensory and nutritional aspects of the food product for decontamination of the microbes.

      2.6.4 Instant Controlled Pressure Drop Technology (DIC)

       2.6.4.1 Principle and Mechanism

      This technique alters the cellular structure and component of the microorganisms and this change is also irreversible therefore and dominating process in the food sector for decontamination. The major factor of this mechanism has two main features which are relaxation of pressure and controlled thermomechanical process of the targeted cell of the microbes. The process of the techniques is as follows: exposing the sample to the vacuum stage, homogenizing it, flowed by an instant drop of pressure, and initiation mechanical stress by releasing the atmospheric pressure causing the cell to explode [76]. Not only mechanical stress but also thermal stress is applied which is effective for the inactivation of the microbes. The procedure of auto-vaporization has likewise been stated to generate a mechanical constraint that performs on the focused cell of the microbes especially the walls of the spores. This technique is known for conserving the nutritional content of the specific food products as well as preserving the organoleptic qualities.

       2.6.4.2 Application for Inactivation in Food Sector

      2.6.5 Ohmic Heating

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