Electrical conductivity of salmon muscles – analysis of the influence of muscle position and electrical current direction during ohmic heating

IF 1.6 4区 农林科学 International Journal of Food Engineering Pub Date : 2023-10-06 DOI:10.1515/ijfe-2023-0143
Wen Guo, Yvan Llave, Mika Fukuoka
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Abstract

Abstract In this study, the heating penetration in salmon muscle tissue was evaluated during ohmic heating (OH) at 20 kHz. The electrical conductivities (ECs) in five muscle-tissue sections (fat content from 7.85 to 21.15 %) of salmon were measured under different conditions of applied frequency (50 Hz–20 kHz), temperature (5–70 °C), and direction of the electric current (parallel or series) in relation to the muscle arrangement. Significant differences in the ECs of the five sections were found, especially at high frequencies. A lower fat content and the parallel current direction resulted in higher ECs than a higher fat content and the series current direction. Empirical equations were derived to determine the EC values of all five sections of the salmon fillet based on their temperature dependence. The cooking losses after OH processes were low in the order of parallel < series < minced. These results are of potential value for the design of the OH process for salmon-based products.
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鲑鱼肌肉的电导率——在欧姆加热过程中肌肉位置和电流方向影响的分析
在本研究中,研究了20 kHz欧姆加热(OH)对鲑鱼肌肉组织的加热穿透性。在不同的施加频率(50 Hz-20 kHz)、温度(5-70℃)和与肌肉排列相关的电流方向(并联或串联)条件下,测量了鲑鱼5个肌肉组织切片(脂肪含量从7.85%到21.15%)的电导率(ECs)。5个部位的ECs有显著差异,特别是在高频处。低脂肪含量和平行电流方向比高脂肪含量和串联电流方向产生更高的ECs。根据鲑鱼鱼片的温度依赖性,导出了经验方程来确定所有五个部分的EC值。OH处理后蒸煮损失低,按平行<顺序排列;系列& lt;剁碎。这些结果对鲑鱼产品OH工艺的设计具有潜在的价值。
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来源期刊
International Journal of Food Engineering
International Journal of Food Engineering 农林科学-食品科技
CiteScore
3.20
自引率
0.00%
发文量
52
审稿时长
3.8 months
期刊介绍: International Journal of Food Engineering is devoted to engineering disciplines related to processing foods. The areas of interest include heat, mass transfer and fluid flow in food processing; food microstructure development and characterization; application of artificial intelligence in food engineering research and in industry; food biotechnology; and mathematical modeling and software development for food processing purposes. Authors and editors come from top engineering programs around the world: the U.S., Canada, the U.K., and Western Europe, but also South America, Asia, Africa, and the Middle East.
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