Scientific and Technical Aerospace Reports
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Page : 1006 pages
File Size : 34,52 MB
Release : 1977
Category : Aeronautics
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Author :
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Page : 1006 pages
File Size : 34,52 MB
Release : 1977
Category : Aeronautics
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Page : 380 pages
File Size : 49,31 MB
Release : 1977
Category : Materials
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Page : 720 pages
File Size : 49,21 MB
Release : 1979
Category : Aeronautics
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Page : 1048 pages
File Size : 29,88 MB
Release : 1993
Category : Aeronautics
ISBN :
A selection of annotated references to unclassified reports and journal articles that were introduced into the NASA scientific and technical information system and announced in Scientific and technical aerospace reports (STAR) and International aerospace abstracts (IAA)
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Page : 1100 pages
File Size : 13,76 MB
Release : 199?
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Author : North Atlantic Treaty Organization. Advisory Group for Aerospace Research and Development
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Page : 446 pages
File Size : 33,43 MB
Release : 1980
Category : Aeronautics
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Page : 686 pages
File Size : 25,90 MB
Release : 1994
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Author : Yasmina Bestaoui Sebbane
Publisher : CRC Press
Page : 434 pages
File Size : 18,49 MB
Release : 2015-11-18
Category : Computers
ISBN : 148229916X
With the extraordinary growth of Unmanned Aerial Vehicles (UAV) in research, military, and commercial contexts, there has been a need for a reference that provides a comprehensive look at the latest research in the area. Filling this void, Smart Autonomous Aircraft: Flight Control and Planning for UAV introduces the advanced methods of flight contr
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Page : 744 pages
File Size : 26,9 MB
Release : 1977
Category : Aeronautics
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Author : National Aeronautics and Space Administration (NASA)
Publisher : Createspace Independent Publishing Platform
Page : 42 pages
File Size : 50,88 MB
Release : 2018-05-29
Category :
ISBN : 9781720380016
A major challenge in the design and development of turbomachine airfoils for gas turbine engines is high cycle fatigue failures due to flutter and aerodynamically induced forced vibrations. In order to predict the aeroelastic response of gas turbine airfoils early in the design phase, accurate unsteady aerodynamic models are required. However, accurate predictions of flutter and forced vibration stress at all operating conditions have remained elusive. The overall objectives of this research program are to develop a transition model suitable for unsteady separated flow and quantify the effects of transition on airfoil steady and unsteady aerodynamics for attached and separated flow using this model. Furthermore, the capability of current state-of-the-art unsteady aerodynamic models to predict the oscillating airfoil response of compressor airfoils over a range of realistic reduced frequencies, Mach numbers, and loading levels will be evaluated through correlation with benchmark data. This comprehensive evaluation will assess the assumptions used in unsteady aerodynamic models. The results of this evaluation can be used to direct improvement of current models and the development of future models. The transition modeling effort will also make strides in improving predictions of steady flow performance of fan and compressor blades at off-design conditions. This report summarizes the progress and results obtained in the first year of this program. These include: installation and verification of the operation of the parallel version of TURBO; the grid generation and initiation of steady flow simulations of the NASA/Pratt&Whitney airfoil at a Mach number of 0.5 and chordal incidence angles of 0 and 10 deg.; and the investigation of the prediction of laminar separation bubbles on a NACA 0012 airfoil.Capece, Vincent R. and Platzer, Max F.Glenn Research CenterUNSTEADY AERODYNAMICS; TURBOMACHINERY; AIRFOILS; AEROELASTICITY; GAS TURBINE ENGINES; INCIDENCE; FORCED VIBRATION