An Experimental Setup to Study the Fundamental Phenomena Associated With Biomass Combustion

J. Silva, S. Teixeira, J. C. Teixeira
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Abstract

During the combustion of solid biomass in a grate-fired boiler, each particle experiences a sequence of processes which include heating, drying, devolatilization, and char combustion. Furthermore, in the gas phase, products may react with oxygen. As it is impossible to maintain repeatable and fully controlled environments, and to monitor all the dynamics involved in field-scale experiments, it becomes necessary to perform investigations at a small scale. This should be sufficient to provide a controlled environment, and large enough to define realistic conditions. In this way, to evaluate the thermal behavior of biomass particles under an oxidative atmosphere and determine the composition of the flue gas released into the atmosphere, a small-scale reactor was developed and presented in this paper. The results of the different mass loss profiles at different combustion conditions and with samples with different size are presented. Additionally, the composition of the gases released over the devolatilization period was determined using a gas chromatograph and they are here correlated with the reactor temperature. This work proved to be very useful since it is important for the computational modeling of industrial boilers and is required for the design and operation of biomass combustion equipment. In the future, this study will be very valuable to develop a computational tool to analyze the combustion process inside an industrial grate-fired boiler.
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研究生物质燃烧基本现象的实验装置
固体生物质在篦火锅炉中燃烧时,每个颗粒都要经历一系列的过程,包括加热、干燥、脱挥发和炭燃烧。此外,在气相中,产物可能与氧发生反应。由于不可能维持可重复和完全控制的环境,也不可能监测现场规模实验所涉及的所有动态,因此有必要进行小规模的调查。这应该足以提供一个受控的环境,并且足够大以定义现实条件。因此,为了评估氧化气氛下生物质颗粒的热行为并确定释放到大气中的烟气的成分,本文开发并提出了一个小型反应器。给出了不同燃烧条件和不同试样尺寸下的质量损失曲线。此外,用气相色谱仪测定了脱挥发期间释放的气体的组成,它们在这里与反应器温度相关。这项工作被证明是非常有用的,因为它对工业锅炉的计算建模很重要,并且是生物质燃烧设备的设计和运行所必需的。在未来,本研究对于开发一种计算工具来分析工业炉排锅炉内部燃烧过程具有重要的价值。
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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