Matthias Waidmann scite author profile

A qualitative explanation for the scaling of energy dissipation by high Reynolds number fluid flows in contact with solid obstacles is proposed in the light of recent mathematical and numerical results. Asymptotic analysis suggests that it is governed by a fast, small scale Rayleigh-Tollmien-Schlichting instability with an unstable range whose lower and upper bounds scale as Re 3/8 and Re 1/2 , respectively. By linear superposition the unstable modes induce a boundary vorticity flux of order Re 1 , a key ingredient in detachment and drag generation according to a theorem of Kato. These predictions are confirmed by numerically solving the Navier-Stokes equations in a two-dimensional periodic channel discretized using compact finite differences in the wall-normal direction, and a spectral scheme in the wall-parallel direction.

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Towards a Framework for the Stochastic Modelling of Subgrid Scale Fluxes for Large Eddy Simulation

Larcher¹,

Beck²,

Klein³

et al. 2015

metz

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Use of New Developments of Attitude Control Sensors for the Micro-Satellite Flying Laptop

Waidmann

Saile

et al. 2006

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The Flying Laptop is a micro-satellite currently under development at the Institute of Space Systems, Universität Stuttgart. The primary mission objective of the Flying Laptop is technology demonstration for the future projects of the Institute of Space Systems. Several attitude sensors, either in-house developed or from external companies with no previous flight heritage, are being used. Electronic boards and mechanical housings were designed for the GPS system, the fiber-optic gyros and the magnetic torquers. The GENIUS experiment aims to increase the GPS accuracy in orbit by using an ultra stable oscillator (USO) and includes attitude determination. The C-FORS fiber optic gyro is a commercial product developed for aviation. With the Micro Advanced Stellar Compass made by the Technical University of Denmark and the Magnetometer made by Zarm-Technik new developments, so far not flown, are integrated. All attitude sensors and actuators are connected to a field programmable gate array (FPGA). This kind of onboard computer offers a more accurate timing and parallel processing of the sensors' and actuators' signals. The paper focuses on the attitude sensors and actuators and their interfaces to the on-board computer.

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Building Blocks for a Strictly Conservative Generalized Finite Volume Projection Method for Zero Mach Number Two-Phase Flows

Waidmann

Gerber

Oevermann

et al. 2017

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