Catalytic afterburners with not fully developed flow: modelling and experimental performances

Antonello A. Barresi, Italo Mazzarino, Marco Vanni, Giancarlo Baldi
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引用次数: 3

Abstract

Catalytic afterburners using short monoliths take advantage of the enhancement of the transfer coefficients in not fully developed flow. The correlations for Nu and Sh in laminar flow in the entrance region of a monolith available from the literature are evaluated and compared with experimental data. A one-dimensional model is proposed and solved using the orthogonal collocation method under stationary and transient conditions.

The calculated results were compared with experimental data for the combustion of lean benzene—air mixtures in a short monolith.

The model is able to describe the behaviour of the afterburner satisfactorily if local Nu and Sh values for simultaneously developing velocity, temperature and concentration profiles are employed. If the light-off occurs part way along the monolith channels, a new thermal entrance should be considered.

流动不完全发展的催化加力燃烧室:模型和实验性能
使用短单体的催化加力燃烧室在不完全发展的流动中提高了传递系数。本文对文献中得到的单体入口区域层流中Nu和Sh的相关性进行了评价,并与实验数据进行了比较。提出了一种一维模型,并在稳态和瞬态条件下采用正交配点法求解。计算结果与实验结果进行了比较,得到的结果与实验结果一致。如果采用同时发展速度、温度和浓度分布的局部Nu和Sh值,该模型能够令人满意地描述加力燃烧室的行为。如果熄火发生在单体通道的一部分,应该考虑一个新的热入口。
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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