Distributed Educated Throat Stability Bypass To Increase The Stable Airflow Range Of A Mach 2 5 Inlet With 60 Percent Internal Contraction

Distributed Educated Throat Stability Bypass to Increase the Stable Airflow Range of a Mach 2.5 Inlet with 60-percent Internal Contraction

The results of an experimental investigation to increase the stable airflow operating range of a supersonic mixed-compression inlet are presented. A distributed educated throat stability-bypass entrance configuration was tested. In terms of diffuser-exit corrected airflow, a large inlet stable airflow range of about 16.1 percent was obtained if a constant pressure was maintained in the bypass plenum. Limited unstart angle of attack data are presented.

Throat Stability-bypass Systems to Increase the Stable Airflow Range of a Mach 2.5 Inlet with 60-percent Internal Contraction

Distributed Porous Throat Stability Bypass to Increase the Stable Airflow Range of a Mach 2.5 Inlet with 60 Percent Internal Contraction

The results of an experimental investigation to increase the stable airflow operating range of a supersonic, mixed-compression inlet with 60-percent internal contraction are presented. Various distributed-porous, throat stability-bypass entrance configurations were tested. In terms of diffuser-exit corrected airflow, a large inlet stable airflow range of about 25 percent was obtained with the optimum configuration if a constant pressure was maintained in the by-pass plenum. The location of the centerbody bleed region had a decided effect on the overall inlet performance. Limited unstart angle-of-attack data are presented.