Investigation of Heat and Mass Transfer in the Process of Convective Heat Treatment and Drying of Thermal Insulation Materials and Approximate Equation of the Drying Curve

Q3 Energy

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Pub Date : 2023-10-13 DOI:10.21122/1029-7448-2023-66-5-461-477

A. I. Ol’shanskii, A. N. Golubev

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Abstract

The results of the study of heat treatment in the drying processes of thin thermal insulation materials based on the most general laws of convective drying of wet bodies with the establishment of the equation of the drying curve are presented. The numerical values of heat and mass transfer Biot numbers for the period of decreasing drying rate are established, too. Based on the study and analysis of numerous sources, the ranges of changes in the Lykov, Posnov, and phase transformation criteria for the processes of heat treatment of ceramics, asbestos, felt, and clay plates have been approximately determined. It is demonstrated that for values of Biot numbers less than one, for Lykov criteria value of 0.05–0.13 and for Posnov criteria value of 0.03–0.08 for drying modes with a temperature of 90–120 ° C, the task of drying, as a heat and mass transfer process, is external, and internal transfer does not affect the conditions of interaction of the material surface with the environment. It is also shown that the drying of thin materials takes place when the Biot number is less than one and, under the conditions of an external problem, the similarity criteria do not affect convective drying. The intensity of moisture evaporation from the body surface is determined by the value of the heat transfer coefficient in the Biot number and the regime parameters of the process. It has been established that the processes of drying materials are low-intensity processes. Based on the elements of the theory of thermal regular regime, the rate of heating of a wet body and the rate of decrease in moisture content are determined. The problem of constructing drying curves without conducting experiments to determine the duration of drying of thermal insulation materials based on approximate equations is considered; this problem is of interest for the practice of drying. The constructed drying curves do not coincide with the actual curve with an error of 4–5 %.

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保温材料对流热处理干燥过程的传热传质研究及干燥曲线近似方程

根据湿体对流干燥的最一般规律，建立了干燥曲线方程，对薄型保温材料干燥过程中的热处理进行了研究。建立了干燥速率下降时期的传热传质Biot数值。基于对大量资料的研究和分析，大致确定了陶瓷、石棉、毛毡和粘土板热处理过程中Lykov、Posnov和相变标准的变化范围。结果表明，当Biot值小于1时，当Lykov准则值为0.05 ~ 0.13时，当Posnov准则值为0.03 ~ 0.08时，干燥模式的温度为90 ~ 120℃，干燥任务作为一个传热传质过程是外部的，内部传递不影响材料表面与环境相互作用的条件。当Biot数小于1时，在存在外部问题的情况下，相似准则不影响对流干燥。湿气从体表蒸发的强度由Biot数中的换热系数值和过程的状态参数决定。已经确定了干燥物料的过程是低强度过程。根据热规律理论的基本原理，确定了湿体的受热率和含水率的递减率。考虑了在不进行实验的情况下，根据近似方程构造干燥曲线来确定保温材料干燥时间的问题;这个问题是干燥实践所关心的。所构建的干燥曲线与实际曲线不一致，误差为4 - 5%。

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来源期刊

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Energy-Nuclear Energy and Engineering

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： The most important objectives of the journal are the generalization of scientific and practical achievements in the field of power engineering, increase scientific and practical skills as researchers and industry representatives. Scientific concept publications include the publication of a modern national and international research and achievements in areas such as general energetic, electricity, thermal energy, construction, environmental issues energy, energy economy, etc. The journal publishes the results of basic research and the advanced achievements of practices aimed at improving the efficiency of the functioning of the energy sector, reduction of losses in electricity and heat networks, improving the reliability of electrical protection systems, the stability of the energetic complex, literature reviews on a wide range of energy issues.