2023
DOI: 10.3390/aerospace10070649
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Prepositive Synergistic Bulge Design for Improving Aerodynamic Performance of Submerged Inlet

Abstract: A submerged inlet has good stealth characteristics and a low external drag, but it also has the disadvantage of low internal flow efficiency. In view of this, a new efficiency enhancement method based on the prepositive synergistic bulge of the inlet’s anterior lip is proposed. Taking the submerged inlet of an aircraft as the baseline configuration, a miniature bulge with a square bottom and an outer convex form is designed in front of the inlet’s anterior lip. Through the convex shape of the bulge, part of th… Show more

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“…The key to maximizing the inlet efficiency in this limited space lies in: (1) reducing or eliminating the negative impact of low-energy airflow from the boundary layer near the entrance on the inlet duct, and (2) increasing the energy of the airflow within the inlet duct or organizing the migration of low-energy fluid within the duct to avoid the accumulation of large-scale separation vortices caused by low-energy airflow. One solution is to install vortex generators upstream of the inlet duct entrance [33]. However, installing vortex generators at the entrance of the inlet duct can introduce additional drag to the aircraft and increase its radar cross-sectional area.…”
Section: Design Principlementioning
confidence: 99%
“…The key to maximizing the inlet efficiency in this limited space lies in: (1) reducing or eliminating the negative impact of low-energy airflow from the boundary layer near the entrance on the inlet duct, and (2) increasing the energy of the airflow within the inlet duct or organizing the migration of low-energy fluid within the duct to avoid the accumulation of large-scale separation vortices caused by low-energy airflow. One solution is to install vortex generators upstream of the inlet duct entrance [33]. However, installing vortex generators at the entrance of the inlet duct can introduce additional drag to the aircraft and increase its radar cross-sectional area.…”
Section: Design Principlementioning
confidence: 99%