Agglomeration in Fluidized Bed Combustion: Mechanisms, Detection, and Counteraction
作者
J. Ruud van Ommen,Weigang Lin
出处
期刊:Handbook of Combustion日期:2010-06-28卷期号:: 471-491被引量:1
标识
DOI:10.1002/9783527628148.hoc067
摘要
Abstract Agglomeration of bed material is a major operational problem in fluidized bed combustion, especially when using biofuels. The main mechanism of agglomeration involves the formation of low melting point compounds, which results in increased particle stickiness and formation of agglomerates. The presence of alkali components from the biofuels leads to reactions with silica from the bed material, forming alkali silicates that have a melting point below the typical operating temperatures of about 850 °C. In addition, hydrodynamics and particle interaction mechanisms will play a role. If no counteraction is taken, severe agglomeration can eventually result in defluidization of the bed and subsequent shut‐down of the installation. Therefore, an early warning system to reliably detect agglomeration is of high importance. Such a system typically consists of the measurement of operating variables such as pressure coupled with analysis of these data. Different methods proposed in the literature are reviewed in this chapter. As soon as agglomeration has been detected, appropriate counteractions should be taken, such as changing the operating conditions or using additives. Alternatively, different bed materials can be used or the fluidized bed design may be adapted to become less susceptible to agglomeration.