Adhesion of Food on Surfaces: Theory, Measurements, and Main Trends to Reduce It Prior to Industrial Drying

IF 5.3 2区农林科学 Q1 FOOD SCIENCE & TECHNOLOGY

Food Engineering Reviews Pub Date : 2021-05-05 DOI:10.1007/s12393-021-09286-9

Ana Caroline Cichella Frabetti, Jaqueline Oliveira de Moraes, Vanessa Jury, Lionel Boillereaux, João Borges Laurindo

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引用次数: 7

Abstract

Adhesion is characterized by the force of attraction between a material and a surface. This phenomenon occurs in several processes (such as baking, chocolate or powder production, bacterial adhesion to industrial plants), causing product losses and contamination. In this sense, parameters as surface energy and food composition play an essential role in adhesion study, being an essential field of understanding to optimize processes. This review approaches the adhesion fundamentals and their relation to food composition and surface properties. Moreover, it describes the tests usually applied to measure the adhesion of food on surfaces. Besides, this work shows that, regarding the literature, it is difficult to differentiate the adhesive from the cohesive forces. Food adhesion in different dryers and alternatives to reduce the problem are discussed, considering that the deposition of dried material on supports and dryer walls causes low yields and operational and handling problems.

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食品在表面上的粘附:理论、测量和在工业干燥前减少它的主要趋势

附着力的特点是材料和表面之间的吸引力。这种现象发生在几个过程中(如烘焙，巧克力或粉末生产，细菌粘附到工业厂房)，造成产品损失和污染。从这个意义上说，表面能和食物成分等参数在粘附研究中起着至关重要的作用，是优化工艺的重要理解领域。本文综述了粘附的基本原理及其与食品成分和表面性质的关系。此外，它还描述了通常用于测量食物表面附着力的测试。此外，这项工作表明，就文献而言，很难区分粘合剂和凝聚力。考虑到干燥材料在支架和干燥器壁上的沉积会导致低产量和操作和处理问题，讨论了不同干燥器中的食物粘附以及减少问题的替代方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Food Engineering Reviews FOOD SCIENCE & TECHNOLOGY-

CiteScore

14.20

自引率

1.50%

发文量

审稿时长

>12 weeks

期刊介绍： Food Engineering Reviews publishes articles encompassing all engineering aspects of today’s scientific food research. The journal focuses on both classic and modern food engineering topics, exploring essential factors such as the health, nutritional, and environmental aspects of food processing. Trends that will drive the discipline over time, from the lab to industrial implementation, are identified and discussed. The scope of topics addressed is broad, including transport phenomena in food processing; food process engineering; physical properties of foods; food nano-science and nano-engineering; food equipment design; food plant design; modeling food processes; microbial inactivation kinetics; preservation technologies; engineering aspects of food packaging; shelf-life, storage and distribution of foods; instrumentation, control and automation in food processing; food engineering, health and nutrition; energy and economic considerations in food engineering; sustainability; and food engineering education.