Journal
LWT-FOOD SCIENCE AND TECHNOLOGY
Volume 163, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.lwt.2022.113544
Keywords
Freezing; Magnetic field; Optimization; Psidium guajava; Response surface methodology
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This study focuses on the effects of alternating magnetic fields on the freezing process of guava. The results suggest that the application of magnetic fields during freezing improves the freezing characteristics of guava, leading to shorter freezing time.
The effects of alternating magnetic fields (AMF) on the freezing kinetics and quality parameters of minimally processed guava were investigated. The freezing process parameters including magnetic field intensity (2.4-8.8 mT) and cube size (2-4 cm) were optimized for fresh-cut guava cubes using the Response Surface Methodology technique. A comparative evaluation of freezing kinetics obtained for guava cubes frozen under different magnetic field intensities (2.4, 5.6, and 8.8 mT) was drawn with respect to the control samples. The two-factor, three level Box and Behnken design suggested that the samples of size 4 cm, treated with a magnetic field intensity of 7.02 mT yielded the optimum freezing characteristics for which the values of phase change time, drip loss, and firmness were 77 min 35 s, 4.97%, and 1.34 N respectively. Significant reductions were observed in phase transition times of frozen guava cubes amounting for 62.4% (4 cm), 44.71% (3 cm) and 27.36% (2 cm) under AMF intensity of 8.8 mT, 5.6 mT and 8.8 mT respectively. Hence, AMF assisted freezing has potential implications in terms of preservation of product quality and efficient energy utilization in the food processing industry.
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