David Riordan scite author profile

David Riordan

5Publications

25Citation Statements Received

28Citation Statements Given

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Affiliations

Bombardier (Canada), Bombardier (United Kingdom)

Publications

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Aerodynamic performance of a bypass engine with fan nozzle exit area change by warped chevrons

Sloan

Wang

Spence³

et al. 2009

Proceedings of the Institution of Mechanical Engineers, Part G:

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Abstract:Variation of the bypass nozzle exit area enables optimization of the turbofan engine operating cycle over a wider range of operational conditions resulting in improved thrust and/or fuel consumption. Two mechanisms for varying the nozzle area have been investigated. The first uses an array of chevrons which when closed, form a full body of revolution and when warped/curved, increase the exit area while forming a serrated trailing edge. The second technique incorporates an axially translating section of the nacelle shroud and uses the change in the nozzle boat-tail radial location with the axial location as a means to vary the nozzle exit area. To analyse the effects on a typical rotor/stator stage, computational fluid dynamics simulations of the NASA Rotor 67, Stator 67A stage integrated into a custom-built nacelle were performed. Nozzles with 8, 12, and 16 chevrons were simulated to evaluate the impact of the variation in geometry upon the nacelle wake and local forces. Gross thrust of the nacelle and the turbulent kinetic energy (TKE) variation through the wake is compared. The chevron nozzle attains a nearly 2 per cent maximum thrust improvement over the translating nozzle technique. The chevron nozzle also has significantly lower (nearly 8 per cent) peak TKE levels in the jet plume.

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Implementation of Menter's Transition Model on an Isolated Natural Laminar Flow Nacelle

Lin¹,

Robinson²,

Early³

et al. 2011

AIAA Journal

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Methodologies for Structural Optimisation of a Thrust Reverser Cascade Using a Multidisciplinary Approach

Butterfield

Price

Armstrong

et al. 2003

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Numerical Simulation on Flow Fields of the Nature Blockage Thrust Reverser

Raghunathan¹,

Cooper

Bénard³

et al. 2005

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Investigations on Variable Fan Nozzle Area to Reduce the Aircraft Jet Noise

Yao¹,

Richardson²,

Riordan³

2007

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David Riordan

Aerodynamic performance of a bypass engine with fan nozzle exit area change by warped chevrons

Implementation of Menter's Transition Model on an Isolated Natural Laminar Flow Nacelle

Methodologies for Structural Optimisation of a Thrust Reverser Cascade Using a Multidisciplinary Approach

Numerical Simulation on Flow Fields of the Nature Blockage Thrust Reverser

Investigations on Variable Fan Nozzle Area to Reduce the Aircraft Jet Noise

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