Rory Golden scite author profile

Rory Golden

3Publications

18Citation Statements Received

140Citation Statements Given

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132

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California Polytechnic State University

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Part 1: The Wind Tunnel Model Design and Fabrication of Cal Poly's AMELIA 10 Foot Span Hybrid Wing-Body Low Noise CESTOL Aircraft

Jameson

Marshall

Golden

et al. 2011

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A coUai>oraUon bet..een Coliromia Polytechnic Corporation wlt~ Georgia Tech Re.eorch In.tltu'" (GTRij ond DHC Engineering ..orked on , NASA NRA to de••lop prodlotlve .apabllJties ror tbe design ond perform,noe of Crul,e Emdent, Sbort Tok...Off ond Landing (CESTOL) 'Ub'Dnle ol..,r.ft, In addillon, 0 lorge .eal. wind tunDel effort to ,aUdat. tb••e p..didi.e o.pobiJlti•• ror thl. NRA for o.rodyn.mic ond ooou.lle p.rform.nc. during to!leoff .nd landing ha, boon und.rtak.D. Tb. mod.l, Ad ••no.d Model fnr E.tr.me Lift .nd Impro.ed Aeroacou,llo. (AMELIA), wa. designed •• 0 100 p,,,enger, N+2 generotlon, reglonal, erul.. .mol.nt ,bort tok...ff 'nd land (CllSTOLj alrUn", with hybrid bl.nded wing-body wltb drculallon contrnl nnd upper ,urf... blowing. Tbe model design wa. roeu.ed on ru.Hoylng' .nd nols. gool••et ODt by the NASA N+2 deflnUlon. The AMELIA hO' a 10 ft wing .p.n. P.t.....nL.b. w.. oba.. n to build AMELIA. Th. Nollon.1 I'UII•Soal. AerodynamIc Complex (NFAC) 40 ft by 80 ft wind tunnel wa. eho,.n to p.rform the l.rg....""I. wind runnelte.t in tb. 'Dmmer or 2011.

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Design and Performance of Circulation Control Flap Systems

Golden

Marshall

2010

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Design and Performance of Circulation Control Geometries

Golden

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DESIGN AND PERFORMANCE OF CIRCULATION CONTROL FLAP GEOMETRIES Rory M. GoldenWith the pursuit of more advanced and environmentally-friendly technologies of today"s society, the airline industry has been pushed further to investigate solutions that will reduce airport noise and congestion, cut down on emissions, and improve the overall performance of aircraft. These items directly influence airport size (runway length), flight patterns in the community surrounding the airport, cruise speed, and many other aircraft design considerations which are setting the requirements for next generation aircraft. Leading the research in this movement is NASA, which has set specific goals for the next generation regional airliners and has categorized the designs that meet the criteria as Cruise Efficient Short Takeoff and Land (CESTOL) aircraft.With circulation control (CC) technology addressing most of the next generation requirements listed above, it has recently been gaining more interest, thus the basis of this research. CC is an active flow control method that uses a thin sheet of high momentum jet flow ejected over a curved trailing edge surface and in turn utilizes Coanda effect to increase the airfoil"s circulation, augmenting lift, drag, and pitching moment. The technology has been around for more than 75 years, but is now gaining more momentum for further development due to its significant payoffs in both performance and system complexity. The goal of this research was to explore the design of the CC flap shape and how it influences the local flow field of the system, in attempt to improve the performance of existing CC flap configurations and provide insight into the aerodynamic characteristics of the geometric parameters that make up the CC flap. Multiple dual radius flaps and alternative flap geometry, prescribed radius, flaps were developed by varying specific flap parameters from a baseline dual radius flap configuration that had been previously v developed and researched. The aerodynamics of the various flap geometries were analyzed at three different flight conditions using two-dimensional CFD. The flight conditions examined include two low airspeed cases with blown flaps at 60° and 90° of deflection, and a transonic cruise case with no blowing and 0° of flap deflection. Results showed that the shorter flaps of both flap configurations augmented greater lift for the low airspeed cases, with the dual radius flaps producing more lift than the corresponding length prescribed radius. The large lift generation of these flaps was accompanied by significant drag and negative pitching moments. The incremental lift per drag and moment produced was best achieved by the longer flap lengths, with the prescribed radius flaps out-performing each corresponding dual radius. Longer flap configurations also upheld the better cruise performance with the least amount of low airspeed flow, drag, and required angle of attack for a given cruise lift coefficient. The prescribed radius flaps also presented a favorable trait of keeping a ...

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Rory Golden

Part 1: The Wind Tunnel Model Design and Fabrication of Cal Poly's AMELIA 10 Foot Span Hybrid Wing-Body Low Noise CESTOL Aircraft

Design and Performance of Circulation Control Flap Systems

Design and Performance of Circulation Control Geometries

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