Year 2023,
Volume: 04 Issue: 01, 14 - 22, 28.06.2023
Alper Şanlı
,
Tuncay Yunus Erkeç
,
Melih Beceren
,
Mehmet Furkan Kemallı
References
- [1]Balmogim, U., Brooks, M. J., Pitot de la Beaujardiere, J. F., Veale, K., Genevieve, B. and Roberts, L. W., 2015. Preliminary Design of the Phoenix-1B Hybrid Rocket. Orlando, 51st AIAA/SAE/ASEE Joint Propulsion Conference.
- [2]Barrowman, J.A., Theoretical Prediction of the Center of Pressure, Cambridge, 1966.
- [3]Bartz, D. R., 1957. A Simple Equation for Rapid Estimation of Rocket Nozzle Convective Heat Transfer Coefficients. Journal of Jet Propulsion, 27(1), pp. 49-53.
- [4]Bartz, D. R., 1965. Turbulent Boundary-Layer Heat Transfer from Rapidly Accelerating Flow of Rocket Combustion Gases and of Heated Air. Advances in Heat Transfer, Volume 2, pp. 1-108.
- [5]Besnard, E., Chen, H. H., Mueller, T., & Garvey, J. (2002, July). Design, manufacturing and test of a plug nozzle rocket engine. In 38th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit (p. 4038).
- [6]Brooks, M. J., Pitot de la Beaujardiere, J. F., Chowdhury, S. M., Genevieve, B. and Roberts, L. W., 2010. Introduction to the Univeristy of KwaZulu-Natal Hybrid Sounding Rocket Program. Nashville, American Institude of Aeronautics and Astronautics.
- [7]Bossert, D. E., Morris, S. L., Hallgren, W. F., & Yechout, T. R. (2003). Introduction to aircraft flight mechanics: Performance, static stability, dynamic stability, and classical feedback control. American Institute of Aeronautics and Astronautics.
- [8]Box, S., Bishop, C. Hunt, H., Estimating the dynamic and aerodynamic paramters of passively controlled high power rockets for flight simulaton, 2009.
- [9]Chowdhury, S. M., 2012. Design and Performance Simulation of a Hybrid Sounding Rocket,MScEng Thesis, Durban: University of KwaZulu-Natal.
- [10]Dyer, J., Doran, E., Dunn, Z., Lohner, K., Bayart, C., Sadhwani, A., Zilliac, G., Cantwel, B. and Karabeyoglu, A., 2007. Design and Development of a 100km Nitrous Oxide/Paraffin Hybrid Rocket Vehicle. Cincinnati, 43rd AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit.
- [11]Genevieve, B., Pitot, J., Brooks, M., Chowdhury, S., Veale, K., Leverone, F., Balmogim. U. and Mawbey, R., 2015. Flight Test of the Phoenix-1A Hybrid Rocket. Orlando, 51st AIAA/SAE/ASEE Joint Propulsion Conference, AIAA Propulsion and Energy Forum.
- [12]Leverone, F. K., 2013. Performance Modelling and Simulation of a 100 km Hybrid Sounding Rocket, MScEng Thesis, Durban: University of KwaZulu-Natal.
- [13]Mahjub, A., Mazlan, N. M., Abdullah, M. Z., & Azam, Q. (2020). Design Optimization of Solid Rocket Propulsion: A Survey of Recent Advancements. Journal of Spacecraft and Rockets, 57(1), 3-11.
- [14]Mandell, G., Caporaso, G., Bengan, W.,Topcis in Advanced Model Rocketry, NARAM-8, 1978.
- [15]Maruyama, S. (2020). Concept design of linear-motor-accelerated projectile for nanoparticle dispersion in stratosphere. Thermal Science and Engineering Progress, 15, 100437.
- [16]McCormick, A., Hultgren, E., Lichtman, M., Smith, J., Sneed, R. and Azimi, S., 2005. Design, Optimization, and Launch of a 3" Diameter N2O/Aluminized Paraffin Rocket. Tucson, 41st AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit.
- [17]Mishra, A. K., Gandhi, K., Sharma, K., Sumanth, N., & Teja, Y. K. (2021). Conceptual design and analysis of two stage sounding rocket. International Journal of Universal Science and Engineering, 7(1), 52-72.
- [18]Sutton, G. P., & Biblarz, O. (2016). Rocket propulsion elements. John Wiley & Sons.
- [19]Şanlı, A., Aslan, A.R. (2021). Design of ASTINSAT-1 And Structural Analysis, Use of Generative Design. International Congress On Engineering And Technology Management.
- [20]Taylor, T. S. (2017). Introduction to rocket science and engineering. CRC Press.
- [21]Johnstone, A. (2020). Cubesat Design Specification (1U-12U) Rev 14 CP-CDS-R14. The Cubesat Program, Cal Poly SLO, July.
Architecture of Stratosphere Rocket for CubeSats
Year 2023,
Volume: 04 Issue: 01, 14 - 22, 28.06.2023
Alper Şanlı
,
Tuncay Yunus Erkeç
,
Melih Beceren
,
Mehmet Furkan Kemallı
Abstract
Cubesat missions are evolving, and because of their high efficiency, they are becoming more common. Cubesats can go to space more easily because of their compact size. Launch vehicles provide great opportunity for us to reach space and high altitudes of the atmosphere. Today, cubesats are launched to high altitudes for experimental purposes with the help of launch vehicles. In this investigation, a novel launch vehicle was created to match the cubesat's specifications. A stable launch vehicle that can take a cubesat the size of 3U to the stratospheric layer has undergone its first design and examination. Flight simulations were carried out by researching the design stages considered in the launch vehicle. The first design of the launch vehicle suitable for the desired task was made and the altitude, stability and drag analyzes that this design could reach were carried out. The design stages and analysis results of the launch vehicle that will deliver the cubesat to the stratosphere layer are shared. In this study, a design exercise for a stratospheric rocket is proposed. Future research will examine the launch vehicle that will cross the space boundary, known as the Kármán line.
References
- [1]Balmogim, U., Brooks, M. J., Pitot de la Beaujardiere, J. F., Veale, K., Genevieve, B. and Roberts, L. W., 2015. Preliminary Design of the Phoenix-1B Hybrid Rocket. Orlando, 51st AIAA/SAE/ASEE Joint Propulsion Conference.
- [2]Barrowman, J.A., Theoretical Prediction of the Center of Pressure, Cambridge, 1966.
- [3]Bartz, D. R., 1957. A Simple Equation for Rapid Estimation of Rocket Nozzle Convective Heat Transfer Coefficients. Journal of Jet Propulsion, 27(1), pp. 49-53.
- [4]Bartz, D. R., 1965. Turbulent Boundary-Layer Heat Transfer from Rapidly Accelerating Flow of Rocket Combustion Gases and of Heated Air. Advances in Heat Transfer, Volume 2, pp. 1-108.
- [5]Besnard, E., Chen, H. H., Mueller, T., & Garvey, J. (2002, July). Design, manufacturing and test of a plug nozzle rocket engine. In 38th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit (p. 4038).
- [6]Brooks, M. J., Pitot de la Beaujardiere, J. F., Chowdhury, S. M., Genevieve, B. and Roberts, L. W., 2010. Introduction to the Univeristy of KwaZulu-Natal Hybrid Sounding Rocket Program. Nashville, American Institude of Aeronautics and Astronautics.
- [7]Bossert, D. E., Morris, S. L., Hallgren, W. F., & Yechout, T. R. (2003). Introduction to aircraft flight mechanics: Performance, static stability, dynamic stability, and classical feedback control. American Institute of Aeronautics and Astronautics.
- [8]Box, S., Bishop, C. Hunt, H., Estimating the dynamic and aerodynamic paramters of passively controlled high power rockets for flight simulaton, 2009.
- [9]Chowdhury, S. M., 2012. Design and Performance Simulation of a Hybrid Sounding Rocket,MScEng Thesis, Durban: University of KwaZulu-Natal.
- [10]Dyer, J., Doran, E., Dunn, Z., Lohner, K., Bayart, C., Sadhwani, A., Zilliac, G., Cantwel, B. and Karabeyoglu, A., 2007. Design and Development of a 100km Nitrous Oxide/Paraffin Hybrid Rocket Vehicle. Cincinnati, 43rd AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit.
- [11]Genevieve, B., Pitot, J., Brooks, M., Chowdhury, S., Veale, K., Leverone, F., Balmogim. U. and Mawbey, R., 2015. Flight Test of the Phoenix-1A Hybrid Rocket. Orlando, 51st AIAA/SAE/ASEE Joint Propulsion Conference, AIAA Propulsion and Energy Forum.
- [12]Leverone, F. K., 2013. Performance Modelling and Simulation of a 100 km Hybrid Sounding Rocket, MScEng Thesis, Durban: University of KwaZulu-Natal.
- [13]Mahjub, A., Mazlan, N. M., Abdullah, M. Z., & Azam, Q. (2020). Design Optimization of Solid Rocket Propulsion: A Survey of Recent Advancements. Journal of Spacecraft and Rockets, 57(1), 3-11.
- [14]Mandell, G., Caporaso, G., Bengan, W.,Topcis in Advanced Model Rocketry, NARAM-8, 1978.
- [15]Maruyama, S. (2020). Concept design of linear-motor-accelerated projectile for nanoparticle dispersion in stratosphere. Thermal Science and Engineering Progress, 15, 100437.
- [16]McCormick, A., Hultgren, E., Lichtman, M., Smith, J., Sneed, R. and Azimi, S., 2005. Design, Optimization, and Launch of a 3" Diameter N2O/Aluminized Paraffin Rocket. Tucson, 41st AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit.
- [17]Mishra, A. K., Gandhi, K., Sharma, K., Sumanth, N., & Teja, Y. K. (2021). Conceptual design and analysis of two stage sounding rocket. International Journal of Universal Science and Engineering, 7(1), 52-72.
- [18]Sutton, G. P., & Biblarz, O. (2016). Rocket propulsion elements. John Wiley & Sons.
- [19]Şanlı, A., Aslan, A.R. (2021). Design of ASTINSAT-1 And Structural Analysis, Use of Generative Design. International Congress On Engineering And Technology Management.
- [20]Taylor, T. S. (2017). Introduction to rocket science and engineering. CRC Press.
- [21]Johnstone, A. (2020). Cubesat Design Specification (1U-12U) Rev 14 CP-CDS-R14. The Cubesat Program, Cal Poly SLO, July.