砌体粘土单元经典逆流工业隧道干燥机的监测与分析

Q4 Engineering

International Journal of Modern Manufacturing Technologies Pub Date : 2022-12-20 DOI:10.54684/ijmmt.2022.14.2.286

M. Vasić

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引用次数: 0

摘要

本文的目的是为了提高当地一家砖厂的干燥质量，降低干燥陡降率。对干燥空气参数(温度、湿度和速度)沿干燥通道的登记以及干燥器的线性收缩和质量变化进行了为期一个月的监测。还记录了物质和能量平衡。结果表明，干燥空气湿度和温度沿干燥隧道高度分布不均匀。通过实验确定并量化了环境空气进入干燥器的情况。这是导致产品质量恶化的原因，也是部分产品的临界水分和残余水分大于期望水分的原因。根据监测数据和质量和能量平衡，提出了防止“虚假”空气突破的解决方案，升级现有的干燥机风扇和安装新的测量设备。还给出了增加干燥机容量的假设解决方案，该解决方案使用了已登记的材料和能量平衡以及工厂管理预期，即每天生产50,000个砌体单元将很快实现。

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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MONITORING AND ANALYZING THE CLASSICAL COUNTER CURRENT INDUSTRIAL TUNNEL DRYER FOR MASONRY CLAY UNITS

This paper goal was to increase the quality of the drying ware and to lower the drying scarp rate in one local brick factory. The registration of drying air parameters (temperature, humidity and velocity) along the dryer channels as well as the drying ware linear shrinkage and mass change were monitored for a month. Material and Energy balances were also recorded. Results have revealed that the drying air humidity and temperature profiles were not evenly distributed along the height of the drying tunnels. The ambient air breakthrough into the dryer was experimentally identified and quantified. It was the cause of the product quality deterioration and the reason why the critical and residual moisture in some of the products was larger than the desired one. Based on monitored data and mass and energy balances a solution was proposed for preventing the “false” air breakthrough, upgrade of the existing dryer fans and installation of the novel, measuring equipment. A hypothetical solution for increasing the capacity of the dryer, which uses the registered material and energy balances as well as factory management expectation, that the production of 50.000 masonry units per day will be achieved soon, was given also.

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来源期刊

International Journal of Modern Manufacturing Technologies Engineering-Industrial and Manufacturing Engineering

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： The main topics of the journal are: Micro & Nano Technologies; Rapid Prototyping Technologies; High Speed Manufacturing Processes; Ecological Technologies in Machine Manufacturing; Manufacturing and Automation; Flexible Manufacturing; New Manufacturing Processes; Design, Control and Exploitation; Assembly and Disassembly; Cold Forming Technologies; Optimization of Experimental Research and Manufacturing Processes; Maintenance, Reliability, Life Cycle Time and Cost; CAD/CAM/CAE/CAX Integrated Systems; Composite Materials Technologies; Non-conventional Technologies; Concurrent Engineering; Virtual Manufacturing; Innovation, Creativity and Industrial Development.