Energetics and Kinetics of Plant Raw Material Dehydration Processes

IF 0.3 Q4 ENERGY & FUELS
O. Burdo, S. Terziev, A. Burdo, I. Sirotyuk, E.A. Pylypenko, A. Akimov, M.Yu. Molchanov
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引用次数: 2

Abstract

The aim of this work is the energy-efficient equipment creation for production of a highquality dry product from a plant raw material and development of scientific and engineering foundation for the design of such an equipment. The achievement of this aim lies in a deep analysis of tendency in the development of a drying theory and technique. The graph is presented, on the basis of which the development of heat and moisture transfer model of A.V. Lykov is given, taking into account the P. A. Rebinder moisture bond forms specificity. The problems of convective drying modern technologies are determined; the reasons of high-energy consumption during their work are substantiated. The electrodynamic dehydrators classification is given, which consideres the combined simple modes (drying) and hybrid dehydration modes. On the basis of the first law of thermodynamics, the possibility of a significant decrease in energy consumption is shown by the organization of a “vapordynamic” effect. The most significant result of the work is the construction of the electrodynamic apparatus module for dehydration of food and medicinal plant raw material. By the combination of electromagnetic field with the filtration process the specific energy consumptions were 1.9 MJ per 1 kg of the removed moisture, at the hybrid processes — juice yield exceeded vapor yield by 3.5 times. The significance of the work consists in the fact that the scientific conception of the authors on the possibilities of the significant decrease in energy consumption during the raw material dehydration at the innovative electrodynamic type apparatuses was practically proven.
植物原料脱水过程的能量学和动力学
这项工作的目的是用植物原料生产高质量干产品的节能设备,并为这种设备的设计奠定科学和工程基础。这一目标的实现在于对干燥理论和技术发展趋势的深入分析。给出了该图,在此基础上,考虑到P.A.Rebinder湿键形式的特异性,给出了A.V.Lykov热湿传递模型的发展。确定了现代对流干燥技术存在的问题;论证了他们工作中高能耗的原因。给出了电动脱水机的分类,其中考虑了简单模式(干燥)和混合脱水模式的组合。根据热力学第一定律,通过组织“蒸汽动力学”效应,表明了能源消耗显著降低的可能性。这项工作的最重要成果是建造了用于食品和药用植物原料脱水的电动装置模块。通过将电磁场与过滤过程相结合,在混合过程中,每1kg去除的水分的比能耗为1.9MJ——果汁产量比蒸汽产量高3.5倍。这项工作的意义在于,作者关于在创新的电动型装置中大幅降低原料脱水过程中能耗的可能性的科学概念得到了实际证明。
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
CiteScore
0.70
自引率
33.30%
发文量
38
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