Profiting from better air flow in baghouses

2010 IEEE-IAS/PCA 52nd Cement Industry Technical Conference Pub Date : 2010-05-20 DOI:10.1109/CITCON.2010.5469763

M. Porter

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引用次数: 1

Abstract

Computational Fluid Dynamics (CFD) tools provide a means for predicting -in great detail -the flow patterns that can be expected within process equipment at concrete plants. This information enables significant plant improvements through the implementation of oftentimes minimal modifications. CFD tools can also be used during the plant's design phase to ensure proper operation after commissioning. The paper will discuss several areas of plant design where CFD tools have been implemented to provide operational benefit. Topics to be discussed include: (a) reducing pressure drop through process components, (b) improving the distribution of particle-laden flows into hoppers, resulting in less bag wear, (c) reducing/eliminating tube sheet scouring in clinker coolers, (d) improving utilization of existing equipment, (e) the use of Lagrangian modeling techniques to predict dust loading paths and to size and place reaction injectors, and (f) implementing reaction chemistry to model combustion dynamics. While the primary focus of the paper is baghouse operation, discussion will also be provided concerning kiln dynamics, clinker coolers and injectors for NOx and mercury reduction in flue gas.

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受益于袋房更好的空气流动

计算流体动力学(CFD)工具提供了一种非常详细地预测混凝土工厂工艺设备内部流动模式的方法。这些信息可以通过通常最小的修改实现显著的工厂改进。CFD工具也可以在工厂的设计阶段使用，以确保调试后的正常运行。本文将讨论工厂设计的几个领域，其中CFD工具已经实施，以提供运营效益。讨论的主题包括:(a)通过过程组件减少压降，(b)改善颗粒流进入料斗的分布，从而减少袋磨损，(c)减少/消除熟料冷却器中的管板磨损，(d)提高现有设备的利用率，(e)使用拉格朗日建模技术来预测粉尘装载路径，确定反应喷射器的大小和位置，以及(f)实施反应化学来模拟燃烧动力学。虽然本文的主要重点是袋仓操作，但也将讨论有关窑动力学，熟料冷却器和用于减少烟气中氮氧化物和汞的喷射器。

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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2010 IEEE-IAS/PCA 52nd Cement Industry Technical Conference

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