Experimental Investigation of an External Aerodynamic Diffuser

Improvement in the thrust/power ratio for shrouded propellers and fan-in-wing units, which are widely used for V/STOL aircraft propulsion, can be achieved by using an external aerodynamic diffuser during hover. Large diffuser divergence angles are required which necessitate a technique of controllin...

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Hauptverfasser:	Longhouse,Richard E, Loth,John L
Format:	Report
Sprache:	eng
Schlagworte:	AERODYNAMIC SLOTS Aerodynamics BOUNDARY LAYER CONTROL CAPTIVE TESTS EXHAUST DIFFUSERS FLOW FIELDS FLOW SEPARATION HOVERING Jet and Gas Turbine Engines NOZZLE GAS FLOW NUMERICAL ANALYSIS SHORT TAKEOFF AIRCRAFT SHROUDED PROPELLERS V/STOL
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creator	Longhouse,Richard E Loth,John L
description	Improvement in the thrust/power ratio for shrouded propellers and fan-in-wing units, which are widely used for V/STOL aircraft propulsion, can be achieved by using an external aerodynamic diffuser during hover. Large diffuser divergence angles are required which necessitate a technique of controlling the flow separation from the internal diffuser wall. The purpose of this experimental investigation was to obtain a correlation between experimental and analytical prediction of performance improvement in order to generate a design technique for optimization of external diffusion, and investigate the potential of several techniques which offer a method of forcing the flow to diffuse externally. A static test facility for measuring the external flow field and the thrust of the model was constructed. All tests were performed with uniform, axial flow at the diffuser inlet. Two-dimensional tests were conducted employing either turning vanes, coanda effect, or rotating cylinder walls. Axisymmetric tests were performed using boundary layer control by suction or blowing. (Modified author abstract)
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Large diffuser divergence angles are required which necessitate a technique of controlling the flow separation from the internal diffuser wall. The purpose of this experimental investigation was to obtain a correlation between experimental and analytical prediction of performance improvement in order to generate a design technique for optimization of external diffusion, and investigate the potential of several techniques which offer a method of forcing the flow to diffuse externally. A static test facility for measuring the external flow field and the thrust of the model was constructed. All tests were performed with uniform, axial flow at the diffuser inlet. Two-dimensional tests were conducted employing either turning vanes, coanda effect, or rotating cylinder walls. Axisymmetric tests were performed using boundary layer control by suction or blowing. 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Large diffuser divergence angles are required which necessitate a technique of controlling the flow separation from the internal diffuser wall. The purpose of this experimental investigation was to obtain a correlation between experimental and analytical prediction of performance improvement in order to generate a design technique for optimization of external diffusion, and investigate the potential of several techniques which offer a method of forcing the flow to diffuse externally. A static test facility for measuring the external flow field and the thrust of the model was constructed. All tests were performed with uniform, axial flow at the diffuser inlet. Two-dimensional tests were conducted employing either turning vanes, coanda effect, or rotating cylinder walls. Axisymmetric tests were performed using boundary layer control by suction or blowing. 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subjects	AERODYNAMIC SLOTS Aerodynamics BOUNDARY LAYER CONTROL CAPTIVE TESTS EXHAUST DIFFUSERS FLOW FIELDS FLOW SEPARATION HOVERING Jet and Gas Turbine Engines NOZZLE GAS FLOW NUMERICAL ANALYSIS SHORT TAKEOFF AIRCRAFT SHROUDED PROPELLERS V/STOL
title	Experimental Investigation of an External Aerodynamic Diffuser
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