Computational Fluid Dynamics analysis on the Reusable Launch Vehicle-Reference-Cited by-同舟云学术

Computational Fluid Dynamics analysis on the Reusable Launch Vehicle

Published:2022-03-07 Issue:1 Volume:14 Page:119-124
ISSN:2247-4528
Container-title:INCAS BULLETIN
language:en
Short-container-title:INCAS BULLETIN

Author:

PRASAD G.¹

Affiliation:

1. Department of Aerospace Engineering, Dayananda Sagar University, Bangalore-560068, India, Prasad-ae@dsu.edu.in

Abstract

Computational fluid dynamics and Additive manufacturing are the two important and recently used technique in the reusable launch vehicle. In this article the design and flow simulation of the re-entry capsule has been performed using Computational Fluid Dynamics in order to optimize the suitable re-entry capsule design. Computational fluid dynamics can be used to simulate the real time supersonic flow during re-entry which helps in predicting the important characteristics during the formation of shock waves. The study considered Mach 5 conditions and an altitude of 5km. In addition, the formation of shock waves was delayed in the present studies compared to previous work. It should be noted that the current aerospace industry uses the advantage of additive production in prototyping to test re-entry launch vehicles.

Publisher

INCAS - National Institute for Aerospace Research Elie Carafoli

Subject

Aerospace Engineering,Control and Systems Engineering

Reference12 articles.

1. [1] G. J. Schiller, Additive manufacturing for Aerospace, IEEE Aerosp. Conf. Proc., vol. 2015–June, 2015.

2. [2] B. Chen, H. Zhan, and W. Zhou, Aerodynamic design of a re-entry capsule for high-speed manned re-entry, Acta Astronaut., vol. 106, pp. 160–169, 2015.

3. [3] K. Kaushikh, S. Arunvinthan, and S. N. Pillai, Aerodynamics and Aerothermodynamics of undulated re-entry vehicles, Acta Astronaut., vol. 142, no. October 2017, pp. 95–102, 2018.

4. [4] J. B. R. Rose, P. Saranya, High Temperature Flow Characteristics over a Re-Entry Space Vehicle, International Journal of Latest Trends in Engineering and Technology (IJLTET), vol. 4, no. 1, pp. 59–65, 2014.

5. [5] J. B. R. Rose, P. Saranya, and J. V. B. Benifa, Investigation of computational flow fields and aeroacoustic characteristics over a re-entry command module, Proc. Inst. Mech. Eng. Part G J. Aerosp. Eng., vol. 232, no. 3, pp. 532–544, 2018.