DESAIN ALAT UJI NOSEL DENGAN MENGGUNAKAN PRINSIP TEROWONGAN ANGIN SUPERSONIK

Authors

  • Bagus H. Jihad Peneliti Bidang Propulsi, Pustekwagan, LAPAN
  • Dedi Priadi Dept. Material dan Metalurgi, FT-Universitas Indonesia

Keywords:

Windtunnel, Nozzle, Supersonic, Run-time, Schlieren

Abstract

The accuracy of nozzle design can be improved by validation. Two methods of validation is software or hardware application. The software can be either CFD software or special software for the nozzle design, such as NOZZLE ® or Aerospike ®. The limitations of CFD software is on unsteady flow conditions. while the limitations of special software is the obscurity of assumptions used. Therefore, the flow validation experimental is important to be implemented. Lapan has three units of wind tunnels, namely subsonic, transonic and supersonic. They have the capability to measure the external flow of the body. While the nozzle design purpose is mostly to investigate the internal flow of the nozzle. Therefore, the nozzle flow testing system which is called a mini wind tunnel has been designed.

This wind tunnel is designed to have speed of Mach 2.4, but the effective speed of 2 Mach. By using a calculation we obtain the run time of 46 seconds. If we assume the pressure drop is 40%, then actually the run time is 28 seconds.

References

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Published

08-02-2012

How to Cite

Jihad, B. H., & Priadi, D. (2012). DESAIN ALAT UJI NOSEL DENGAN MENGGUNAKAN PRINSIP TEROWONGAN ANGIN SUPERSONIK. Indonesian Journal of Aerospace, 9(1 Juni), 18–27. Retrieved from https://ejournal.brin.go.id/ijoa/article/view/12399

Issue

Vol. 9 No. 1 Juni (2011): Jurnal Teknologi Dirgantara

Section

Articles

License

Copyright (c) 2012 Bagus H. Jihad, Dedi Priadi

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

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