Numerical Investigation on Performance of Axisymmetric Variable Geometry Scramjet Combustor Equipped with Strut Flame Holder

Hongchao Qiu; Junlong Zhang; Guangjun FengJuntao ChangWen Bao

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Numerical Investigation on Performance of Axisymmetric Variable Geometry Scramjet Combustor Equipped with Strut Flame Holder

机译：Numerical Investigation on Performance of Axisymmetric Variable Geometry Scramjet Combustor Equipped with Strut Flame Holder

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This manuscript designed an axisymmetric variable geometry scramjet combustor equipped with a strut flame holder to help the combustor work in a wide flight Mach numbers and conducted a series of numerical calculations and experiments to study the performance of the axisymmetric combustor. The characteristics of the combustor under the different flight Mach numbers (2,4,6) are discussed by the numerical calculations, and the results testify that the designed combustor can operate in a large range of the flight Mach number. Then the performances of the combustor in high Ma (4 and 6) are studied. The maximum pressure ratio of the combustor under Ma = 6 is about 6.5. With the divergence ratio increasing, the thermal chock of the combustor decreases under the flight Ma = 4. When the flight Ma is 2, and the divergence ratio is 3.2, the combustor can work well with the fuel injected by the center cone and the wall_1. However part of the oxygen near the bottom wall can not be ignited, and the flame distribution is uneven. To solve this problem, the multi-wall fuel injected method is taken. With the wall_2 fuel added, the mixing efficiency of the fuel increases, and the flame near the bottom wall is established. The results in this study are valuable for the future axisymmetric variable geometry scramjet combustor design and the optimization of combustion distribution uniformity.

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来源
《Combustion science and technology》 |2023年第8期|1059-1083|共25页
作者
Hongchao Qiu; Junlong Zhang; Guangjun FengJuntao ChangWen Bao;
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作者单位

School of Energy Science and Engineering, Harbin Institute of Technology, Harbin, Heilongjiang, People's Republic of China;

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原文格式 PDF
正文语种英语
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关键词
Supersonic combustion; variable geometry; axisymmetric combustor; strut flame holder;

Numerical Investigation on Performance of Axisymmetric Variable Geometry Scramjet Combustor Equipped with Strut Flame Holder

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