Beeswax Material: Non-Conventional Solid Fuel for Hybrid Rocket Motors

Authors

  • el-sayed makled MAKLED Space Technology Centre, Cairo, Egypt

DOI:

https://doi.org/10.3849/aimt.01256

Keywords:

hybrid rocket motor, solid fuel grain, beeswax, combustion, ignition system

Abstract

Traditional solid fuel for Hybrid Rocket Motor (HRM) is characterized as a low regression rate, aiming to develop a new generation of solid fuel material that combines at the same time good ballistic properties, easy manufacture, safe exhaust emission and low cost. Beeswax as bio-derived hydrocarbon fuel has been evaluated to be used as solid fuel in HRM. Firing tests are carried out at the average pre-chamber pressure of 2.90 bar, the oxidizer mass flow rate of 9.34 g/s and the regression rate of 1.5 mm/s at combustion efficiency reaches 60.3 %. Beeswax as pure solid fuel grain at 7 mm active channel port with 100 mm length is tested with gaseous oxygen (gO2) as oxidizer and it showed a regression rate at least three times as high as traditional hybrid propellant, such as Polymethyl methacrylate (PMMA) and Polyethylene (PE)/gO2. This provides a promise for high performance parameters with a special regression rate to overcome the main drawbacks of traditional hybrid propellant. Experimental evaluation parameters (regression rate, fuel mass flow rate and combustion efficiency) are carried out for beeswax/gO2. Combustion shows fairly successful results for lab scale testing but it needs further enhancement, especially in combustion efficiency and theoretical studies for combustion efficiency.

Author Biography

  • el-sayed makled MAKLED, Space Technology Centre, Cairo, Egypt

    space technology center

References

SUTTON, G.P. Rocket Propulsion Elements: An Introduction to the Engineering of Rocket. New York: Wiley, 1992. 656 p. ISBN 978-0-471-52938-5.

MAKLED A.EL-S. and AL-TAMIMI, M.K. Hybrid Rocket Motor Performance Parameters: Theoretical and Experimental Evaluation. International Journal of Aerospace and Mechanical Engineering, 2017, vol. 11, no. 1, p. 47-55. ISSN 2393-8609.

KRISHNAN, S. Hybrid rocket technology: An overview. In Proceedings of the 6th Asia Pacific International Symposium on Combustion and Energy Utilization. Kualalumpur: Faculty of Mechanical Engineering, Universiti Teknologi Malaysia Malaysia, 2002, 602 p. ISBN 978-9-835-20244-5.

ALTMAN, D. Hybrid Rocket Development History. In 27th Joint Propulsion Conference, Sacramento, 1991, p. 1-5. https://doi.org/10.2514/6.1991-2515.

MAKLED A.EL-S. and AL-TAMIMI, M.K. Experimental Investigation of Hybrid Rocket Motor: Ignition, Throttling and Re-Ignition Phenomena. International Journal of Aerospace and Mechanical Engineering, 2017, vol. 11, no. 11, p. 2086-2096. ISSN 2393-8609.

KARABEYOGLU, M.A. and CANTWELL, B.J. Combustion of Liquefying Hybrid Propellants: Part 1. Journal of Propulsion and Power, 2002, vol. 18, no. 3, p. 610-620. https://doi.org/10.2514/2.5975.

KARABEYOGLU, M.A. and CANTWELL, B.J. Combustion of Liquefying Hybrid Propellants: Part 2, Journal of Propulsion and Power, 2002, vol. 18, no. 3, p. 621–630. https://doi.org/10.2514/2.5976.

GORDON, S and McBRIDE, B.J. Computer Program for Calculation of Complex Chemical Equilibrium Composition and Application. NASA Reference Publication 1311. [Research Report]. [on-line]. 1994. [cited 2018-05-12]. Available from: https://www.grc.nasa.gov/www/CEAWeb/RP-1311.pdf.

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Published

09-06-2019

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Section

Research Paper

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How to Cite

MAKLED, el- sayed makled. (2019). Beeswax Material: Non-Conventional Solid Fuel for Hybrid Rocket Motors. Advances in Military Technology, 14(1), 99-113. https://doi.org/10.3849/aimt.01256

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