Simulation of Back Pressure Effect on Behaviour of Convergent Divergent Nozzle
Keywords:
convergent divergent h, back pressure, shock wave, variable area flow, quasi-one dimensional nozzle flowAbstract
In this research a simulation of steady flow of a gas through a convergent divergent nozzle which has a varying cross sectional area will be considered. The nature of the flow can be explained by considering how the flow and its characteristics in the nozzle changes as nthe back pressure Pb is decreased.The characteristics of gas flow i.e.(Mach number, static pressure, density, velocity magnitude and static temperature) distributions for the convergent divergent nozzle are implemented by using the ANSYS Fluent 12.1 software to solve the quasi-one dimensional nozzle flow.The reductions in the back pressure cannot affect conditions upstream of the throat. The nozzle is, therefore, choked. The shock wave increases the pressure, density and temperature and reduces the velocity and Mach number to a subsonic value, and as back pressure is further reduced to a certain value, the extent of the supersonic flow region increases, the shock wave moving further down the divergent portion of the nozzle towards the exit plane.
Downloads
References
Khan, A. A. ; Shembharkar, T. R., (2008) ,"Viscous flow analysis in a convergent- divergent nozzle", Proceedings of the International Conference on Aerospace Science and Technology 26 - 28 June 2008, Bangalore, India,.
Patrick H. O. ; William E. C. (1997), ”Compressible Fluid Flow”, The Mcgraw-Hill companies, INC..
Kreith, F.; Berger, S.A.; et. al. (1999) , “Fluid Mechanics”, Handbook, Ed. Frank Kreith Boca Raton: CRC Press LLC,. DOI: https://doi.org/10.1201/NOE0849397516-4
Krause, E ; Aachen, R, (2005) "Fluid mechanics with problems and solutions and an aerodynamic laboratory " Aerodynamics Institute, Germany ,ISBN 3-540-22981-7 Springer Berlin Heidelberg New York.
Nicholas J. Georgiadis, Teryn W. DalBello , Charles J. Trefny , and Albert L. Johns, (2006) "Aerodynamic Design and Analysis of High Performance Nozzles for Mach 4 Accelerator Vehicles " T44th AIAA Aerospace Sciences Meeting and Exhibit 9 - 12 January, 2006 Reno, Nevada DOI: https://doi.org/10.2514/6.2006-16
Malley ,P. O. , Mattie, L. , Butts , P. (1999)"Determination of Critical Pressure Ratios In Convergent-Divergent Nozzles" May 7,
Hubert, D., Sesmat, S., Giorgi, R. D., Gautier, D. and Bideaux, E. , (2008) , "Analysis of flow behaviour and characteristics of pneumatic components " Proceedings of the 7th JFPS International Symposium on Fluid Power, TOYAMA 2008 September 15-18, 2008 DOI: https://doi.org/10.5739/isfp.2008.719
Ekanayake, E. M. S. ; Gear, J. A. Y. Ding (2010) , " Flow simulation of a two dimensional rectangular supersonic convergent divergent nozzle" ANZIAM J. 51n (EMAC2009) PP.C377-C392,. DOI: https://doi.org/10.21914/anziamj.v51i0.2577
Kirk, D. R., "Gas Turbine Engine Nozzles" mae 4261: air-breathing engines Mechanical and Aerospace Engineering Department Florida Institute of Technology.
Genick Bar–Meir, "Fundamentals of Compressible Fluid Mechanics", Version (0.4.8.6
Abaas, A. A., ,(2006)."Computational study of supersonic flow over aerodynamic configurations", University of Technology, Mechanical Engineering Department
Published
How to Cite
Issue
Section
Copyright (c) 2013 Nazar Muneam Mahmood
This work is licensed under a Creative Commons Attribution 4.0 International License.
