Two-phase flow characteristics inside a serpentine inlet in heavy rain

Rain is a common atmospheric phenomenon encountered by aircraft and is one major cause of several catastrophic flight accidents. Stealth aircraft usually adopt the knapsack serpentine inlet layout, of which the entrance is beveled and upward, thus easily subject to external environmental effects lik...

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Published inPhysics of fluids (1994) Vol. 37; no. 2
Main Authors Wu, Z. L., Shi, Z. Y., Sun, S., Tan, H. J.
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 01.02.2025
Subjects
Aerodynamics
Air flow
Aircraft
Aircraft engines
Aircraft performance
Boundary layers
Computational fluid dynamics
Crosswinds
Distortion
External pressure
Flow characteristics
Internal layout
Military aircraft
Performance evaluation
Pressure recovery
Rain
Raindrops
Stealth technology
Two phase flow
Water film
Wind effects
Online AccessGet full text
ISSN1070-6631
1089-7666
DOI10.1063/5.0252635

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Abstract Rain is a common atmospheric phenomenon encountered by aircraft and is one major cause of several catastrophic flight accidents. Stealth aircraft usually adopt the knapsack serpentine inlet layout, of which the entrance is beveled and upward, thus easily subject to external environmental effects like rain. This study investigates the effects of rain on the aerodynamic performance of a serpentine inlet by an Eulerian-Lagrangian two-phase flow approach. The Computational Fluid Dynamics (CFD) method is validated by experiments. The results indicate that the aerodynamic performance of the inlet, such as total pressure recovery, circumferential total pressure distortion index, and swirl distortion index, is all influenced by rain. Rain intensity and raindrop size are found to have a significant influence on the inlet aerodynamic performance. Raindrops impacting the inner wall surface of the inlet lead to the formation of water films. Furthermore, the water film has a non-negligible effect on the inlet velocity boundary layer. Crosswinds and headwinds affect the position of the water film formation. The swirl intensity of the airflow near the top wall of the aerodynamic interface plane (AIP) increases under rain conditions. These findings show the need to consider the impact of rain when designing and evaluating the aerodynamic performance of an aircraft engine.
AbstractList Rain is a common atmospheric phenomenon encountered by aircraft and is one major cause of several catastrophic flight accidents. Stealth aircraft usually adopt the knapsack serpentine inlet layout, of which the entrance is beveled and upward, thus easily subject to external environmental effects like rain. This study investigates the effects of rain on the aerodynamic performance of a serpentine inlet by an Eulerian-Lagrangian two-phase flow approach. The Computational Fluid Dynamics (CFD) method is validated by experiments. The results indicate that the aerodynamic performance of the inlet, such as total pressure recovery, circumferential total pressure distortion index, and swirl distortion index, is all influenced by rain. Rain intensity and raindrop size are found to have a significant influence on the inlet aerodynamic performance. Raindrops impacting the inner wall surface of the inlet lead to the formation of water films. Furthermore, the water film has a non-negligible effect on the inlet velocity boundary layer. Crosswinds and headwinds affect the position of the water film formation. The swirl intensity of the airflow near the top wall of the aerodynamic interface plane (AIP) increases under rain conditions. These findings show the need to consider the impact of rain when designing and evaluating the aerodynamic performance of an aircraft engine.
Author Tan, H. J.
Sun, S.
Shi, Z. Y.
Wu, Z. L.
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10.1007/s42401-023-00229-2
10.1061/(ASCE)AS.1943-5525.0000801
10.1016/j.paerosci.2014.07.003
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Snippet Rain is a common atmospheric phenomenon encountered by aircraft and is one major cause of several catastrophic flight accidents. Stealth aircraft usually adopt...
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crossref
scitation
SourceType Aggregation Database
Index Database
Publisher
SubjectTerms Aerodynamics
Air flow
Aircraft
Aircraft engines
Aircraft performance
Boundary layers
Computational fluid dynamics
Crosswinds
Distortion
External pressure
Flow characteristics
Internal layout
Military aircraft
Performance evaluation
Pressure recovery
Rain
Raindrops
Stealth technology
Two phase flow
Water film
Wind effects
Title Two-phase flow characteristics inside a serpentine inlet in heavy rain
URI http://dx.doi.org/10.1063/5.0252635
https://www.proquest.com/docview/3163276311
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