Consideration of Unsteady Aerodynamics and Boundary-Layer Transition in Rotorcraft Airfoil Design PDF Download
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Author: Bernardo Oliveira Vieira
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Traditional rotorcraft airfoil design is based on steady-state aerodynamics, despite the many sources of unsteady-flow in forward flight. At high-thrust and high-speed conditions, the rotor may be susceptible to dynamic stall; consequently, large margins are necessary to prevent fatigue loads on the blades and pitch links, limiting operation under high altitudes, payload, and temperatures, as well as during maneuvers.This work revises typical design requirements and proposes new ways to qualify airfoils in dynamic stall. A number of design studies are conducted to better understand the relation between airfoil shape and dynamic stall behavior. The design manipulations are handled by an inverse-design, conformal mapping method, and unsteady Reynolds-averaged Navier-Stokes equations are used to predict the unsteady aerodynamic performance. In unsteady flow, the occurrence of aerodynamic lags in the development of pressures, boundary-layer separation, and viscous-inviscid interactions suggest more strict requirements than in steady flow. In order to postpone the onset of dynamic stall, the design needs to handle competing leading- and trailing-edge separation mechanisms, which are heavily influenced by shock waves and laminar-turbulent transition effects. It is found that a particular tailoring of the trailing-edge separation development can provide adequate dynamic stall characteristics and minimize penalties in drag and nose-down pitching moments. At the same time, a proper design of the nose shape is required to avoid strong shock waves and prevent premature stall. A proof-of-concept airfoil is developed to improve dynamic stall behavior, while meeting other stringent requirements. Performance calculations using information obtained from comprehensive analysis (RCAS) based on a UH-60A helicopter suggest that an expansion of the operational envelope is possible, while also reducing hover drag, maintaining low pitching moments, and providing reasonable margins to drag rise at the maximum speed of the UH-60A helicopter.Finally, pitching wing calculations are conducted to demonstrate the proposed concepts in three-dimensional flow. The new wing experiences a more favorable dynamic stall inception and considerable decreases in the integrated peak pitching moments compared to traditional designs.
Author: Bernardo Oliveira Vieira
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Traditional rotorcraft airfoil design is based on steady-state aerodynamics, despite the many sources of unsteady-flow in forward flight. At high-thrust and high-speed conditions, the rotor may be susceptible to dynamic stall; consequently, large margins are necessary to prevent fatigue loads on the blades and pitch links, limiting operation under high altitudes, payload, and temperatures, as well as during maneuvers.This work revises typical design requirements and proposes new ways to qualify airfoils in dynamic stall. A number of design studies are conducted to better understand the relation between airfoil shape and dynamic stall behavior. The design manipulations are handled by an inverse-design, conformal mapping method, and unsteady Reynolds-averaged Navier-Stokes equations are used to predict the unsteady aerodynamic performance. In unsteady flow, the occurrence of aerodynamic lags in the development of pressures, boundary-layer separation, and viscous-inviscid interactions suggest more strict requirements than in steady flow. In order to postpone the onset of dynamic stall, the design needs to handle competing leading- and trailing-edge separation mechanisms, which are heavily influenced by shock waves and laminar-turbulent transition effects. It is found that a particular tailoring of the trailing-edge separation development can provide adequate dynamic stall characteristics and minimize penalties in drag and nose-down pitching moments. At the same time, a proper design of the nose shape is required to avoid strong shock waves and prevent premature stall. A proof-of-concept airfoil is developed to improve dynamic stall behavior, while meeting other stringent requirements. Performance calculations using information obtained from comprehensive analysis (RCAS) based on a UH-60A helicopter suggest that an expansion of the operational envelope is possible, while also reducing hover drag, maintaining low pitching moments, and providing reasonable margins to drag rise at the maximum speed of the UH-60A helicopter.Finally, pitching wing calculations are conducted to demonstrate the proposed concepts in three-dimensional flow. The new wing experiences a more favorable dynamic stall inception and considerable decreases in the integrated peak pitching moments compared to traditional designs.
Author:
Publisher: DIANE Publishing
ISBN: 1428995161
Category :
Languages : en
Pages : 42
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Book Description
Author: Richard Eppler
Publisher: Springer Science & Business Media
ISBN: 3662026465
Category : Technology & Engineering
Languages : en
Pages : 569
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Book Description
This detailed book describes a procedure for the design and analysis of subsonic airfoils. Contains 116 new airfoils for a wide range of Reynolds numbers and application requirements, including the input data for the computer code.
Author: L. U. Dadone
Publisher:
ISBN:
Category :
Languages : en
Pages : 100
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Book Description
Author: Sunetra Sarkar
Publisher: LAP Lambert Academic Publishing
ISBN: 9783838347592
Category :
Languages : en
Pages : 204
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Book Description
This book analyzes the unsteady, viscous flow-field of an oscillating airfoil. This has ramifications on understanding the flapping flight of natural biological systems like fishes and invertebrates. It also helps towards a better aerodynamic design and understanding of flapping types MAVs. The flow-field simulation is performed with a grid-free Lagrangian particle based solver using vorticity particles. An examination of the unsteady aerodynamic load and the qualitative wake structures are done for airfoils undergoing pitch and plunge oscillations. The propulsive behavior is investigated at medium to high frequency ranges for different relevant parameters. These are amplitude of oscillation, mean angle of attack, and rotational axis location. Asymmetric sinusoidal motions are also examined. Dynamic stall is another important aspect of unsteady aerodynamics that airfoils and wings experience during their time dependent movement at large angles of attack. Insects use this phenomenon to increase the aerodynamic loads during their large angle flapping maneuvers. This aspect is also studied in this book.
Author: Richard Lawson Campbell
Publisher:
ISBN:
Category : Aerofoils
Languages : en
Pages : 28
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Book Description
Author: Kozo Fujii
Publisher: Springer Science & Business Media
ISBN: 3322899527
Category : Technology & Engineering
Languages : en
Pages : 228
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Book Description
Computational Fluid Dynamics (CFD) has made remarkable progress in the last two decades and is becoming an important, if not inevitable, analytical tool for both fundamental and practical fluid dynamics research. The analysis of flow fields is important in the sense that it improves the researcher's understanding of the flow features. CFD analysis also indirectly helps the design of new aircraft and/or spacecraft. However, design methodologies are the real need for the development of aircraft or spacecraft. They directly contribute to the design process and can significantly shorten the design cycle. Although quite a few publications have been written on this subject, most of the methods proposed were not used in practice in the past due to an immature research level and restrictions due to the inadequate computing capabilities. With the progress of high-speed computers, the time has come for such methods to be used practically. There is strong evidence of a growing interest in the development and use of aerodynamic inverse design and optimization techniques. This is true, not only for aerospace industries, but also for any industries requiring fluid dynamic design. This clearly shows the matured engineering need for optimum aerodynamic shape design methodologies. Therefore, it seems timely to publish a book in which eminent researchers in this area can elaborate on their research efforts and discuss it in conjunction with other efforts.
Author: ADVISORY GROUP FOR AEROSPACE RESEARCH AND DEVELOPMENT NEUILLY-SUR-SEINE (France)
Publisher:
ISBN:
Category :
Languages : en
Pages : 613
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Book Description
The Symposium identified the need for carefully conceived experimental unsteady flow data, particularly for both unseparated and separated two- and three-dimensional turbulent boundary layers. Detailed, accurate measurements of critical flow parameters was encouraged. It was agreed that linearized theories of unsteady inviscid flows provided a useful basis for many engineering applications, particularly in the early design stages of aircraft, but for more reliable calculations in the transonic and supersonic regimes the emphasis should be on development of non-linear numerical methods. Transonic numerical codes are increasingly efficient but their validity and accuracy needs assessment. Future calculations should include boundary layer effects even if no shock-wave interaction is included. The importance of Reynolds number on the dynamic stall was indicated. It was advised that serious consideration should be given to the development of a manual aeroelasticity of turbo-machines. An important factor in determining the characteristics of a rotor blade is the interaction of the blade with vortices shed by other blades. Research is required on the nature of this interaction and its effect on the dynamic stall of the blade. (Author).
Author: Laurence K. Loftin
Publisher:
ISBN:
Category : Aerodynamic load
Languages : en
Pages : 48
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Book Description
Summary: Tests were conducted with two typical low-drag airfoils of 90-inch chord to determine the effects of surface projections, grooves, and sanding scratches on boundary-layer transition. The Reynolds number at which a spanwise row of cylindrical projections would cause premature transition was determined for a range of Reynolds number from approximately 3 x 106 to 10 x 106. Data were obtained for projections of various sizes and chordwise locations on both low-drag airfoils. The results were analyzed on the assumption that the critical airfoil Reynolds number for a given projection was a function only of the local-flow conditions around the projection. This assumption neglected possible effects of tunnel turbulence, pressure gradient, boundary-layer Reynolds number, and the original extent of the laminar flow. The data correlated on the basis of this assumption within a range of critical airfoil Reynolds number of ±0.5 x 106 and within a range of projection height of ±0.002 inch. The tests of surface grooves and sanding scratches indicated that, for the range of Reynolds number investigated, the laminar boundary layer was much less sensitive to surface grooves and sanding scratches than to projections above the surface.
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 120
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Book Description
