Evaluation of non-uniform water film behavior on the performance of an axial aeroengine compressor

Author:

Ishaque Ghulam1,Zheng Qun1,Ahmad Naseem12,Luo Mingcong1,Khushak Sanaullah3

Affiliation:

1. College of Power and Energy Engineering, Harbin Engineering University , Harbin , 150001 , China

2. Department of Mechanical Engineering , Institute of Space Technology , Islamabad , 44000 , Pakistan

3. College of Mechanical and Electrical Engineering, Harbin Engineering University , Harbin , 150001 , China

Abstract

Abstract Two-phase flow CFD simulations are conducted to investigate the performance characteristics of an axial flow compressor operating under an excessive amount of water intrusion exposed to a rainy atmosphere. In order to obtain a certain compressor behavior under the water film irregularities, the blade surfaces are divided into a small number of regions depending on the film thickness. In addition, to examine the droplets interaction with rotating blades and splashing process, a self-compiled FORTRAN code has been used. The results showed that uneven roughening of blade surfaces is the effective technique to identify the deterioration in performance with irregular wall film thickness. The overall adiabatic efficiency and pressure ratio are decreased by 6% and 0.88 at a 5% water injection rate using an irregular rough wall model. Moreover, the increased wall film has adversely influenced the internal flow mechanism, which resulted the increase of passage shock intensity, entropy level within the main flow zone as well as the blade surface temperature.

Publisher

Walter de Gruyter GmbH

Subject

Aerospace Engineering

Reference26 articles.

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1. Numerical study on the three-dimensional flow of water film on the outer surface of the hollow stationary blade;Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy;2024-01-15

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