2,720 research outputs found
Propellers of Minimum Induced Loss, and Water Tunnel Tests of Such a Propeller
The fundamental vortex theory for a single rotation propeller with a finite number of blades is reviewed. The theory leads to the specification of a radial distribution of bound circulation on each blade for minimum induced loss, analogous to the elliptic spanwise distribution of bound circulation on a wing for minimum induced drag. A propeller designed in accord with this theory has been tested in a water tunnel where it exhibited high efficiency in spite of localized cavitating flow. A knowledge of the flow field for an optimum propeller is of value to the airframe designer seeking to maximize the performance of the airplane-propeller combination
Minimum Vertical Tail Drag
Tail size requirement calculations are presented for a vertical tail performing a coordinated turn reversal at corresponding load requirements with minimum tail drag
Preservation of wing leading edge suction at the plane of symmetry as a factor in wing-fuselage design
Most fuselage geometries cover a portion of the wing leading edge near the plane of symmetry, and it seems reasonable to expect that a large fraction of the leading edge suction which would be developed by the covered wing at high angles of attack is not developed on the fuselage. This is one of the reasons that the Oswald span efficiency factor for the wing body combination fails to approach the value predicted by lifting line theory for the isolated wing. Some traditional and recent literature on wing-body interference is discussed and high Reynolds number data on wing-body-nacelle drag are reviewed. An exposed central leading edge geometry has been developed for a sailplane configuration. Low Reynolds number tests have not validated the design concept
Design of Propellers for Motorsoarers
A method was developed for the design of propellers of minimum induced loss matched to an arbitrary operating point characterized by disc loading (thrust or power), air density, shaft speed, flight speed, and number of blades. A consistent procedure is outlined to predict the performance of these propellers under off design conditions, or to predict the performance of propellers of general geometry. The examples discussed include a man powered airplane, a hang glider with a 7.5 kW (10 hp) 8,000 rpm engine, and an airplane-like motorsoarer
Role of Reconnection in AGN Jets
We discuss the possible role of reconnection in electro-magnetically
dominated cores of relativistic AGN jets. We suggest that reconnection may
proceed in a two-fold fashion: initial explosive collapse on the Alfven
time-scale of a current-carrying jet (which is of the order of the light
crossing time) and subsequent slow quasi-steady reconnection. Sites of
explosive collapse are associated with bright knots, while steady-state
reconnection re-energizes particles in the ``bridges'' between the knots.
Ohmic dissipation in reconnection layers leads to particle acceleration
either by inductive electric fields or by stochastic particle acceleration in
the ensuing electro-magnetic turbulence.Comment: 4 pages, Proceedings of the conference "The Physics of Relativistic
Jets in the CHANDRA and XMM Era", 23-27 September 2002, Bologn
Land Grant Application- Larrabee, Jonathan (Roxbury)
Land grant application submitted to the Maine Land Office for Jonathan Larrabee for service in the Revolutionary War.https://digitalmaine.com/revolutionary_war_mass/1215/thumbnail.jp
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