Effective Boundary Conditions and Numerical Method for Flow Characteristics of Aeroengine Compressor at High Mach Flight

Effective Boundary Conditions and Numerical Method for Flow Characteristics of Aeroengine Compressor at High Mach Flight

Flow characteristics inside the compressor are of great importance for aeroengine performance under the high adverse pressure gradient. To meet the need for quick performance estimation, the numerical simulation is a meaningful investigation method to predict the similarity flow characteristics of a...

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Bibliographic Details
Published in:Journal of Applied Fluid Mechanics Vol. 12; no. 3; pp. 845 - 855
Main Authors: Lin, A. Q., Zhou, J., Tian, X. J., Zheng, Q., Zhang, H.
Format: Journal Article
Language:English
Published: Isfahan Isfahan University of Technology 01-05-2019
Subjects:
Aeroengine compressor; High Mach; Similarity criterion; Parametric definition
Aerospace engines
Air intakes
Altitude
Boundary conditions
Criteria
Dimensionless numbers
Equivalence
Flight
Flow characteristics
High altitude
High Mach number
Mach number
Mass flow
Mathematical models
Numerical methods
Similarity
Simulation
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Summary:Flow characteristics inside the compressor are of great importance for aeroengine performance under the high adverse pressure gradient. To meet the need for quick performance estimation, the numerical simulation is a meaningful investigation method to predict the similarity flow characteristics of aeroengine compressor at high Mach flight. Thus, this paper aims to satisfy the accuracy of compressor flow field at high altitude based on the similarity criterion. The accuracy for solution results by the application of the similarity criterion and the derivation of compressor boundary conditions is verified with the experimental data. Then, the parametric definitions of air intake are put forward to get the inlet boundary conditions of compressor. The comparative simulation results are conducted between similarity and prototype flow fields at design boundary conditions. The results show that among the most important dimensionless criterion is Mach number at high-speed flow, so the same equivalent mass flow and equivalent speed are recommended. In addition, the flow characteristics of the compressor at high altitude and high Mach number have a good similarity. Consequently, it can extend to further study compressor performance of aeroengine at different flight altitudes and Mach numbers.
ISSN:1735-3572
1735-3645
DOI:10.29252/jafm.12.03.29531