Theoretical reasons for rapid heating of vegetable oils by microwaves

Xu Zhou, Yonas Gezahegn, Shuang Zhang, Zhongwei Tang, Pawan S. Takhar, Patrick D. Pedrow, Shyam S. Sablani, Juming Tang

Research output: Contribution to journalArticlepeer-review

Abstract

Water and high-moisture foods are readily heated in microwaves due to their relatively high dielectric loss factors. Vegetable oil, on the other hand, has a much smaller loss factor (about 1/100th that of water), and is generally believed to be unsuitable for microwave heating. In this study, we conducted experiments to compare heating rates between vegetable oil and pure water in a 2450 MHz microwave oven. We found that the vegetable oil samples were heated rapidly in microwaves, and even faster (1.4–2.0 times) than the water samples. To provide a theoretical explanation, we developed a 3-D computer simulation model. The simulation revealed an approximately 10-fold stronger electric field in oil compared to water, resulting in a similar amount of microwave power being absorbed by the oil and water samples. As the absorbed microwave power was converted into thermal energy, the oil samples were heated faster due to their smaller specific heat (1/2 that of water). But we also found that when the dimensions of oil are smaller than half the microwave wavelength, oil is heated slower than water due to the absence of hot spot areas. This study provides a theoretical explanation for microwave heating of vegetable oils and demonstrates opportunities for utilizing microwave energy to electrify industrial heating of vegetable oils.

Original languageEnglish (US)
Article number100641
JournalCurrent Research in Food Science
Volume7
DOIs
StatePublished - Jan 2023

Keywords

  • Carbon neutrality
  • Computer simulation
  • Dielectric properties
  • Electrification
  • Microwave heating
  • Vegetable oil

ASJC Scopus subject areas

  • Applied Microbiology and Biotechnology
  • Food Science
  • Biotechnology

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