Spout diameter in fine particle conical spouted beds: Assessing the influence of draft tubes by PTV

IF 7.1 Q1 ENGINEERING, CHEMICAL Chemical Engineering Journal Advances Pub Date : 2024-12-19 DOI:10.1016/j.ceja.2024.100696

Maider Bolaños, Xabier Sukunza, Mikel Tellabide, Idoia Estiati, Haritz Altzibar, Miriam Arabiourrutia, Martin Olazar

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Abstract

The spout diameter is an essential parameter for designing spouted bed contactors, as it conditions the gas–solid contact and heat and mass transfer rates. Several correlations have been proposed in the literature to estimate the spout size, but they do not provide accurate results in beds made up of fine particles, especially when they are equipped with open-sided draft tubes. Accordingly, the spout–annulus interface has been determined by means of Particle Tracking Velocimetry (PTV) and the spout shape has been delineated under different operating conditions in fountain confined conical spouted beds of varying geometric parameters. The air inlet diameter and gas velocity, as well as the aperture ratio of the open-sided draft tubes, are the parameters of greatest influence. Accordingly, a new correlation has been proposed, which allows predicting accurately the spout size in beds without draft tube, as well as those equipped with open-sided ones.

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细颗粒锥形喷床的喷嘴直径：用PTV评价尾水管的影响

喷孔直径是设计喷孔床接触器的一个重要参数，因为它决定了气固接触和传热传质速率。文献中已经提出了几种相关性来估计喷口大小，但它们不能提供由细颗粒组成的床的准确结果，特别是当它们配备了开口的引水管时。据此，利用粒子跟踪测速法（PTV）确定了不同几何参数的喷泉密闭锥形喷口床在不同工况下的喷口-环界面，并圈定了喷口形状。进气直径、气流速度以及开式尾水管的孔径比是影响最大的参数。因此，提出了一种新的相关性，它可以准确地预测没有引水管的床的喷口尺寸，以及配备开口管的床的喷口尺寸。

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