Abstract: In microwave drying, improper setting of process parameters will cause material structure damage and surface burnt, which is often accompanied by the emission of characteristic odor. This article takes apple as the object, adopts 60, 70, 80 °C constant temperature, fuzzy logic control and linear temperature control 5 kinds of drying schemes, through the odor map collected by electronic nose, studies the emission law of characteristic odor, and optimizes the drying scheme. According to the variation rule of apple flavor peak and coke paste peak in the odor map of the constant temperature scheme, the fuzzy logic control scheme determined can realize the on-line adjustment of the magnetron power, preserve the flavor and reduce the burntness. Optimize the measured material temperature curve in the fuzzy logic control scheme, determine the linear temperature control scheme, and eliminate the electronic nose detection link, which is more suitable for industrial applications.
By comparing the product quality of different microwave drying equipment, the quality of the dried product under the linear temperature control scheme is high, time-consuming and strong, and the drying ability is a priority. This study provides a technical basis for the application of odor detection technology to apple drying.
Key words: apple microwave drying; temperature; odor detection; control scheme; apple
Introduction
Apple is widely loved by consumers since the early 1920s.
More than 300 volatile aromatic substances have been isolated from the odor of apples. Only a small part (about 20-40 kinds) of volatile components have been determined to have a decisive influence on sensory quality. In recent years, there has been a lot of research on the smell of apples, but many studies have focused on the classification and storage of apples. Only a part of the research is related to the drying process or parameter control. Three representative volatile components of apple during hot air drying and freeze drying were analyzed by gas chromatography-mass spectrometer (GC-MS).
More than 300 volatile aromatic substances have been isolated from the odor of apples. Only a small part (about 20-40 kinds) of volatile components have been determined to have a decisive influence on sensory quality. In recent years, there has been a lot of research on the smell of apples, but many studies have focused on the classification and storage of apples. Only a part of the research is related to the drying process or parameter control. Three representative volatile components of apple during hot air drying and freeze drying were analyzed by gas chromatography-mass spectrometer (GC-MS).
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