An Experimental Study on the Determination of Minimum Fluidization Velocity

Bayburt Üniversitesi Fen Bilimleri Dergisi Pub Date : 2023-06-30 DOI:10.55117/bufbd.1282591

A. Tozlu, A. I. Kutlar, Melda ÖZDİNÇ ÇARPINLIOĞLU

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Abstract

Pneumatic conveying systems are widely used in a variety of industrial settings since different types of materials can be conveyed. There are some classifications of flow modes for conveying of powders and bulk solid particles based on mean particle size, density, and inter particle cohesion forces. In this paper, three different cases which are vertical (test case 1), horizontal (test case 2) and continuous conveying test case are constructed and considered in order to determine the flow modes in pneumatic conveying systems. Seven solid particles are used with the range of 200 kg/m3 < ρblp < 2400 kg/ m3 and 150 μm < dp < 2750 μm in these three cases. In vertical test set-up unstable zone and fluidized dense phase is occurred, then in the horizontal test set-up slug flow and plug flow is observed and lastly plug flow and dilute phase is occurred visually in continuous conveying test case. Finally, all obtained data are considered for the classification according to flow modes in pneumatic conveying systems. The observed flow modes are considered and tabulated with respect to all test cases.

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最小流化速度测定的实验研究

气动输送系统广泛应用于各种工业环境，因为不同类型的材料可以被输送。根据颗粒的平均大小、密度和颗粒间的内聚力，粉末和散装固体颗粒的输送有几种流动模式。本文构建并考虑了垂直(试验用例1)、水平(试验用例2)和连续输送试验用例三种不同的工况，以确定气力输送系统的流动模式。在这三种情况下使用七种固体颗粒，范围为200 kg/m3 < ρblp < 2400 kg/m3和150 μm < dp < 2750 μm。在垂直试验装置中出现不稳定区和流化密相，然后在水平试验装置中观察到段塞流和塞流，最后在连续输送试验箱中观察到塞流和稀相。最后，根据所获得的数据进行气力输送系统的流动模式分类。考虑观察到的流模式，并根据所有测试用例制作表格。

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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Bayburt Üniversitesi Fen Bilimleri Dergisi

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