Numerical Analysis of the Expansion–Deflection Dual-Bell Nozzle
Performance 2024-01-6003
The objective of this paper is to identify the optimum supersonic Mach number for
expansion–deflection dual-bell nozzle. The numerical analysis is carried for
expansion–deflection dual-bell nozzle (EDDBN) with different free stream
conditions. Numerical study observes that the transition pressure ratio and Mach
contours are studied through inside and outside of the nozzle. The results
proved that increasing the Mach number leads to decrease in the static pressure
as well as reduce the performance of EDDBN nozzle. The analysis was carried out
for four different Mach number, out of which Mach number 1.2 provides the
optimum results. In the present study, the influence of Mach number behavior
affects the pressure and Mach configuration inside and outside of the EDDBN
nozzle. This novel concept is used in supersonic vehicles for higher
performances. Also, it provides a way to improve the existing nozzle design
configuration.
Affiliated:
Parul Institute of Engineering and Technology, Department of, Accenture, Indian Institute of Technology, Department of Aerospace, Program Development Company LLC, Anna University, Madras Institute of Technology
Pages: 7
Event:
Aerospace Technical Papers
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Hypersonic and supersonic aircraft
Mathematical analysis
Nozzles
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