Arne W. Stuermer scite author profile

Contra-Rotating Open Rotor (CROR) propulsion systems have seen renewed interest as an economic and environmentally friendly powerplant for future transport aircraft. Installation effects, i.e. the mutual interactions between airframe components and the rotors, have a pronounced impact on the aerodynamic and aeroacoustic performance for this type of engine. In the past five years, DLR's Institute of Aerodynamics and Flow Technology has performed a number of numerical studies investigating important aspects relating to engine-airframe integration of CROR engines. In this article an overview of coupled aerodynamic and aeroacoustic simulations investigating representative pusher-configuration CROR engines will be given, focusing on the impact on aerodynamic performance and aeroacoustics caused by the presence of a pylon, the potential for noise reduction by employing trailing-edge blowing at the pylon trailing edge as well as the performance and noise variations caused by different senses of rotation of the rotors. It is shown that the interaction with the pylon strongly impacts blade performance and front rotor noise emissions but that the use of active flow control in the form of pylon trailing-edge blowing can alleviate these adverse installation effects to a notable extent.

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Active Flow Control for Interaction Noise Reduction of Contra-Rotating Open Rotors

Akkermans

Stuermer

Delfs

2016

AIAA Journal

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Pylon Trailing Edge Blowing for the Control of CROR Unsteady Blade Loads

Stuermer

Yin

2013

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Validation of uRANS-Simulations of Contra-Rotating Open Rotor-Powered Aircraft at Take-Off Conditions

Stuermer

2018

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Arne W. Stuermer

Installation impact on pusher CROR engine low speed performance and noise emission characteristics

Progress in aerodynamic and aeroacoustic integration of CROR propulsion systems

Active Flow Control for Interaction Noise Reduction of Contra-Rotating Open Rotors

Pylon Trailing Edge Blowing for the Control of CROR Unsteady Blade Loads

Validation of uRANS-Simulations of Contra-Rotating Open Rotor-Powered Aircraft at Take-Off Conditions

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