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http://dx.doi.org/10.5293/KFMA.2007.10.6.032

An study on the ramp tabs for thurst vector control symmetrically installed at the supersonic nozzle exit  

Kim, Kyoung-Rean (두산중공업 원자력 BOP 설계팀)
Ko, Jae-Myoung (충남대학교 기계공학과)
Park, Jong-Ho (충남대학교 기계공학과)
Publication Information
The KSFM Journal of Fluid Machinery / v.10, no.6, 2007 , pp. 32-37 More about this Journal
Abstract
Aerodynamic forces and moments have been used to control rocket propelled vehicles. If control is required at very low speed, Those systems only provide a limited capability because aerodynamic control force is proportional to the air density and low dynamic pressure. But thrust vector control(TVC) can overcome the disadvantages. TVC is the method which generates the side force and roll moment by controlling exhausted gas directly in a rocket nozzle. TVC is classified by mechanical and fluid dynamic methods. Mechanical methods can change the flow direction by several objects installed in a rocket nozzle exhaust such as tapered ramp tabs and jet vane. Fluid dynamic methods control the flight direction with the injection of secondary gaseous flows into the rocket nozzle. The tapered ramp tabs of mechanical methods are used in this paper. They installed at the rear in the rocket nozzle could be freely moved along axial and radial direction on the mounting ring to provide the mass flow rate which is injected from the rocket nozzle. In this paper, the conceptual design and the study on the tapered ramp tabs of the thurst vector control has been carried out using the supersonic cold flow system and schlieren system. This paper provides the thrust spoilage, three directional forces and moments and distribution of surface pressure on the region enclosed by the tapered ramp tabs.
Keywords
Thrust vector control; Ramb tabs; Supersonic cold flow system; Schlieren system; Side force;
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  • Reference
1 John M. Seiner., and Thomas D. Norum., 1980, 'Aerodynamic aspects of shock containing jet plumes,' AIAA Paper 80-0965
2 Runyan, R. B., Rynd, J. P., and Seely, J. F., 1992, 'Thrust stand design principles,' AIAA 17th Aerospace ground testing conference, AIAA -92- 3976
3 Buckley Jr., F. I. 1968, 'Mach disc location in Jets in Co-Flowing Airstreams,' Technical Note. AIAA Journal 13. pp. 105-106
4 Kumar, A., 1986, 'Mach Reflection and Aerodynamic Choking in Two Dimensional Ducted Flow,' Technical Note. AIAA Journal 24. pp. 695-697   DOI   ScienceOn
5 Kim, Kyoung. Rean., Ko, Jae, Myoung., and Park, Jong. Ho., 2007, 'A performance study and conceptual study on the ramp tabs of the thurst vector control,' proceedings of the KSME spring annual meeting, pp. 3068-3073
6 Kim, Kyoung. Rean., 2003, 'A study on the characteristic injected vertically into a supersonic flow,' Chung-nam national university Master degree thesis
7 Christopher P. Rahaim., Dr. Robert J. Cavalleri and John G. McCarthy., Dr. Alain J. Kassab., 1996, 'Jet Vane Thrust Vector Control : A Design Effort,' AIAA 96-2904
8 Christopher M. Gourlay., 1988, 'The Flow-Field Generated By Inclined Ramp Tabs In a Rocket Nozzle Exhaust,' Univ. of Queensland, PhD Thesis
9 J. M. Simmons, C. M. Gourlay and B. A. Leslie., 1986, 'The Flow Generated by Ramp Tabs in a Rocket Nozzle Exhaust,' AIAA 86-0282
10 Wilcox, D. E., Weir Jr A., Nicholls, J. A. and Dunlap R., 1957, 'Location of Mach Discs and Diamonds in Supersonic Air Jets,' Journal of the Aeronautical Sciences, Feb. pp. 150-152
11 Love, E. S., Grigsby, C. E., Lee, L. P., and Woodling, M. J., 1959, 'Experimental and theoretical studies of axisymmetric free jets,' NASA TR R-6