A Retrospective of High-Lift Device Technology
| Autor: | Monte, Andrea Dal, Castelli, Marco Raciti, Benini, Ernesto |
|---|---|
| Jazyk: | angličtina |
| Rok vydání: | 2012 |
| Předmět: | |
| DOI: | 10.5281/zenodo.1084173 |
| Popis: | The present paper deals with the most adopted technical solutions for the enhancement of the lift force of a wing. In fact, during several flight conditions (such as take off and landing), the lift force needs to be dramatically enhanced. Both trailing edge devices (such as flaps) and leading edge ones (such as slats) are described. Finally, the most advanced aerodynamic solutions to avoid the separation of the boundary layer from aircraft wings at high angles of attack are reviewed. {"references":["J. Roskam and C. T. Edward Lan, Aeroplane Aerodynamics and Performance,\nDARcorporation (U.S.A.), 1997.","Engineering Sciences Data Unit, Wing lift coefficient increment at zero\nangle of attack due to deployment of plain trailing-edge flaps at low\nspeeds, ESDU 97011, ISBN: 978 1 86246 011 9.","D. Angland, X. Zhang, N. Molin and L. C. Chow, Measurements of flow\naround a split flap configuration, Collection of Technical Papers - 45th\nAIAA Aerospace Sciences Meeting, Vol. 4, pp. 2657-2674, 2007.","Engineering Sciences Data Unit, Increments in aerofoil lift coefficient at\nzero angle of attack and in maximum lift coefficient due to deployment of\na trailing-edge split flap, with or without a leading-edge high-lift device,\nat low speeds, ESDU 94029, ISBN: 978 0 85679 916 7.","Engineering Sciences Data Unit, Lift coefficient increment due to full-span\nslotted flaps, ESDU Aero F.01.01.08, ISBN: 978 1 86246 424 7.","Engineering Sciences Data Unit, Increment in aerofoil profile drag\ncoefficient due to the deployment of a single-slotted flap, ESDU 87005,\nISBN: 978 0 85679 598 5.","Y. Dong-Hee, K. Yasuaki, K. satoshi and K. Takuma, Improvement of\nAerodynamic Performance of the Aero-Train by Controlling Wing-Wing\nInteraction Using Single-Slotted Flap, JSME International Journal, Series\nB: Fluids and Thermal Engineering, Vol. 49 - No. 4, pp. 1118-1124, 2006.","O. Kozlov, Design and Modeling of the Fowler Flap With Adaptive\nElements, ASME 2006 International Mechanical Engineering Congress\nand Exposition (IMECE2006), November 5 10, 2006 , Chicago, Illinois\n(USA).","B. Gunston, The Cambridge Aerospace Dictionary, Cambridge, Cambridge\nUniversity Press 2004, p. 331.\n[10] B. Gunston, The Cambridge Aerospace Dictionary, Cambridge, Cambridge\nUniversity Press 2004, p. 270.\n[11] K. Yee, W. Joo and D. Lee, Aerodynamic Performance Analysis of a\nGurney Flap for Rotorcraft Application, Journal of Aircraft, Vol 44 - No.\n3, pp. 1003-1014, May/June 2007.\n[12] Y. Zhao, J. Wang, L. Zuo and D. Yu, Application of Gurney flap on\ncertain target drone, Journal of Beijing University of Aeronautics and\nAstronautics, Vol. 35 - No. 8, pp. 913-916, August 2009.\n[13] Z. Shen and G. Yu, Experimental investigation of effect of gurney flap\non performance of horizontal-axis wind turbine, Acta Energiae Solaris\nSinica, Vol. 28 - No. 2, pp. 196-199, February 2007.\n[14] A. L. Williams, New and less complex alternatives to the Handley Page\nslat, Journal of Aircraft, Vol 23 No. 3 (1986), pp. 200-206.\n[15] J. Bayandor, M. L. Scott and R. S. Thomson, Parametric optimisation\nof composite shell structures for an aircraft Krueger flap, Composite\nStructures, Vol. 57, Issues 1-4, pp. 415-423, July 2002.\n[16] S. Chavez and C. Richard, Numerical Study of the Coanda effect,\nFluidics Quart, Vol. No. 4, pp. 40-48, 1970.\n[17] B. E. Wake, J. S. Kearney, G. Tillman and S. S. Ochs, Control of High-\nReynolds-Number Turbulent Boundary Layer Separation Using Counter-\nFlow Fluid Injection, Collection of Technical Papers - 3rd AIAA Flow\nControl Conference, 5-8 June, San Francisco, CA.\n[18] T. Troia and M. Waters,A Propulsion Concept for Circulation Control\nWing Technology, SAE Technical Paper 2005-01-3192, 2005,\ndoi:10.4271/2005-01-3192.\n[19] G. McGowan, C. Rumsey, H. Hassan and R. C. Swanson, A threedimensional\ncomputational study of a circulation control wing, 3rd AIAA\nFlow Control Conference, 5-8 June 2006, San Francisco, CA.\n[20] D. R. Jenkins, T. Landis and J. Miller, AMERICAN X-VEHICLES An\nInventory X-1 to X-50, NASA, Monographs in Aerospace History, No.\n31 SP-2003-4531, June 2003.\n[21] L. A. Marshall, Boundary-Layer Transition Results From the F-16XL-2\nSupersonic Laminar Flow. Control Experiment, NASA technical memorandum\n209013, 1999.\n[22] B. A. Smith, Laminar flow data evaluated, Aviation Week & Space\nTechnology 145, October 1996.\n[23] J. Williams, S. F. J. Butler and M. N. Wood, The Aerodynamics of Jet\nFlaps, Aeronautical Research Council Reports and Memoranda N. 3304,\n1963."]} |
| Databáze: | OpenAIRE |
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