Title of article
Existence of Subsonic Flow in Divergent Section Adjacent to Throat of a Convergent-Divergent Nozzle for Actual Flow
Author/Authors
Kundu, B Department of Mechanical Engineering - Jadavpur University, Kolkata, India , Lee, K. S School of Mechanical Engineering - Hanyang University, Seoul, Korea
Pages
7
From page
353
To page
359
Abstract
In this study, a mathematical analysis by considering the effect of an actual index of expansion clearly shows
a persistent of the existence of subsonic flow after the throat to a down stream in the region of divergent part
to produce a supersonic velocity at the exit of a convergent-divergent nozzle. The length of the divergent part
where subsonic velocity found is dependent upon the magnitude of the nozzle efficiency and the actual index
of expansion. The change in velocity from subsonic, sonic and supersonic occurs only in the divergent part
while the corresponding frictionless behavior has the classical features (subsonic in the convergent, sonic at
the throat, and supersonic in the divergent). This is mainly due to thermodynamic processes which result a
change in enthalpy due to friction and a gain in entropy. The reference conditions are newly derived for an
actual frictional flow condition. This design aspect differs in a physical manner corresponding to that from an
isentropic flow. An actual nozzle shape for convergent-divergent nozzles is also investigated under a nonisentropic
flow condition.
Keywords
Subsonic velocity , Reference condition , Friction , Convergent-divergent nozzle , Actual shape
Journal title
Astroparticle Physics
Serial Year
2018
Record number
2468626
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