Examination of Resonant Frequencies Generated by Combustion Oscillation in a Combustor Fueled by a Hydrogen-Natural Gas Mixture and an Upstream Pipe

Volume 1: Acoustics, Vibration, and Phononics Pub Date : 2021-11-01 DOI:10.1115/imece2021-68521

A. Uemichi, Yifan Lyu, Jin Kusaka, S. Kaneko

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Abstract

A combustion oscillation experiment showed combustion oscillation frequencies of around 350 Hz when only natural gas was used as fuel and approximately 200 and 400 Hz when a hydrogen–natural gas mixture was used. To analyze the resonant frequency, two- and four-region models considering unburned and burned regions of the combustor were developed. The experimental frequencies of the 100% natural gas condition were successfully predicted. Conversely, the experimentally observed frequencies under the hydrogen–natural gas condition were not accurately predicted. A swirler-combustor model was then constructed to get closer to the actual configuration and shape of the experimental setup. However, the model could not reproduce the experimental value under the hydrogen–natural gas condition. A whole piping model was then developed by adding a casing and an air supply pipe to the combustor. The resonant frequencies under both the 100% natural gas and hydrogen–natural gas conditions were successfully calculated. The model reproduced the range and change tendency of the experimentally measured oscillation frequency.

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以氢-天然气混合物和上游管道为燃料的燃烧室中燃烧振荡产生共振频率的研究

燃烧振荡实验表明，当仅使用天然气作为燃料时，燃烧振荡频率约为350 Hz，而当使用氢-天然气混合物时，燃烧振荡频率约为200 Hz和400 Hz。为了分析谐振频率，建立了考虑燃烧室未燃烧区和燃烧区的二区和四区模型。成功地预测了100%天然气条件下的实验频率。相反，氢气-天然气条件下的实验观测频率不能准确预测。然后建立了一个旋涡燃烧室模型，以更接近实验装置的实际配置和形状。然而，该模型不能再现氢气-天然气条件下的实验值。然后，通过在燃烧室中添加一个壳体和一个送风管道，开发了一个完整的管道模型。成功地计算了100%天然气和氢气-天然气条件下的谐振频率。该模型再现了实验测量的振荡频率的范围和变化趋势。

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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Volume 1: Acoustics, Vibration, and Phononics

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