振动流化床颗粒过滤介质再生过程的特性研究

IF 2.9 4区 环境科学与生态学 Q3 ENERGY & FUELS
Clean Energy Pub Date : 2023-11-17 DOI:10.1093/ce/zkad060
Bing Liu, Lixin He, Xianglong Zhao, Yi Guo
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引用次数: 0

摘要

创新性地采用振动流化床再生微粒过滤介质,用于净化煤气化过程中产生的粗合成气。对振动流化床在含尘颗粒过滤介质再生过程中的特性进行了研究。建立了颗粒过滤介质在分布器上的理想输送模型,并通过实验进行了验证。当工作频率从 50 赫兹提高到 60 赫兹时,颗粒过滤介质的平均停留时间可从 5.5 分钟缩短到 1.5 分钟,缩短了 72%。在理想的工作条件下,床层厚度与颗粒过滤介质的进料速度呈线性增长。建立并验证了流化空气的阻力模型,可用于计算颗粒过滤介质静态床层在流化空气分配器上的压降,即相同厚度动态床层的最大值。流化空气使微粒过滤介质的平均停留时间减少 50%,减少了不同进料速率条件下微粒平均停留时间的差异。评估了含尘过滤介质颗粒在振动流化床中的再生效果。流化空气的表面速度从 0 到 0.6~0.9 m-s-1,使再生效率从 29.41% 提高到 70.59~88.24%。本文为颗粒过滤介质再生系统中振动流化床的工业应用提供了参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characteristic research of regeneration process of particulate filter medium in vibrated fluidized bed
The vibrational fluidized bed is innovatively adopted to regenerate the particulate filter medium for the purification of crude synthesis gas from the coal gasification process. Characteristic research of vibrated fluidized beds during dust-containing particulate filter medium regeneration has been carried out. The ideal transport model of particulate filter medium on the distributor is established and verified by using experiments. The mean residence time of the particulate filter medium can be reduced by 72% from 5.5 to 1.5 min with an increase in the working frequency from 50 to 60 Hz. The thickness of the bed layer is linearly increased with the feeding rate of the particulate filter medium under ideal working conditions. The resistance models of the fluidizing air are built up and validated, and they can be used to calculate the pressure drop of the static bed layer of the particulate filter medium on the fluidizing air distributor, which is the maximum value of the dynamic bed layer with the same thickness. The fluidizing air makes the mean residence time of the particulate filter medium decrease by 50% and reduces the difference in the particulate mean residence time under different feeding-rate conditions. The regeneration effect of dust-containing filter medium particles in a vibrated fluidized bed is evaluated. Fluidizing air with superficial velocity ranging from 0 to 0.6~0.9 m·s–1 makes the regeneration efficiency increase from 29.41% to 70.59~88.24%. This article provides a reference for the industrial application of a vibrated fluidized bed for the particulate filter medium recycling system.
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来源期刊
Clean Energy
Clean Energy Environmental Science-Management, Monitoring, Policy and Law
CiteScore
4.00
自引率
13.00%
发文量
55
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