Investigation of operational parameters for an industrial CFB combustor of coal, biomass and sludge

China Particuology Pub Date : 2007-08-01 DOI:10.1016/j.cpart.2007.05.001

Manon Van de Velden , Jan Baeyens , Bill Dougan , Alan McMurdo

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引用次数: 45

Abstract

The combustion of coal and/or biomass (sludge, wood waste, RDF, etc.) in a circulating fluidized bed has been a commercial topper for over 20 years, and references to principles and applications are numerous and widespread although few data are presented concerning the operation of large scale CFB-units. The authors studied the CFB-combustion at UPM-Kymmene (Ayr), a major paper mill relying for its steam production upon the combustion of coal (80–85%), wood bark (5–10%) and wastewater treatment sludge (5–10%). The maximum capacity of the CFB is 58 MW_th.

A complete diagnostic of the operation was made, and additional tests were performed to assess the operating mode. The plant schematics, relevant dimensions and process data are given. To assess the operation of the UPM-CFB, it is important to review essential design parameters and principles of CFB combustors, which will be discussed in detail to include required data, heat balance and flowrates, operating versus transport velocity, kinetics and conversion (including the possible effect of the Bouduard reaction if carbon is present).

Since the residence time in the riser and the cyclone efficiency determine the burnout of circulating fuel-particles, the UPM-CFB was subjected to a stimulus response technique using nickel oxide as tracer. Results illustrate the efficiency of the cyclone separation and the number of recycle loops for particles of a given size. Results will also be used to assess the cyclone operation and efficiency and to comment upon expected and measured carbon conversion.

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煤、生物质和污泥工业循环流化床燃烧室运行参数的研究

在循环流化床中燃烧煤和/或生物质(污泥、木材废料、RDF等)已经有20多年的商业历史了，尽管关于大型循环流化床装置运行的数据很少，但有关原理和应用的参考文献大量而广泛。作者研究了UPM-Kymmene (Ayr)的cfb燃烧，UPM-Kymmene是一家主要的造纸厂，依靠燃烧煤(80-85%)，木树皮(5-10%)和废水处理污泥(5-10%)来生产蒸汽。CFB的最大容量为58兆瓦。对手术进行了完整的诊断，并进行了额外的测试来评估操作模式。给出了装置原理图、相关尺寸和工艺数据。为了评估UPM-CFB的运行，回顾CFB燃烧器的基本设计参数和原理是很重要的，我们将详细讨论这些参数和原理，包括所需的数据、热平衡和流量、运行与传输速度、动力学和转化(包括存在碳时Bouduard反应的可能影响)。由于在提升管内的停留时间和旋风分离器的效率决定了循环燃料颗粒的燃烬，因此采用氧化镍作为示踪剂对UPM-CFB进行了刺激响应技术。结果表明，对于给定粒径的颗粒，旋风分离器的分离效率和循环循环的数量。结果还将用于评估旋风的运行和效率，并对预期和测量的碳转化率发表评论。

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China Particuology

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