T. Sühnel scite author profile

T. Sühnel

5Publications

110Citation Statements Received

43Citation Statements Given

How they've been cited

283

107

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Affiliations

Helmholtz-Zentrum Dresden-Rossendorf

Publications

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High resolution gamma ray tomography scanner for flow measurement and non-destructive testing applications

Hampel

Bieberle

Hoppe

et al. 2007

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We report on the development of a high resolution gamma ray tomography scanner that is operated with a Cs-137 isotopic source at 662 keV gamma photon energy and achieves a spatial image resolution of 0.2 line pairs/ mm at 10% modulation transfer function for noncollimated detectors. It is primarily intended for the scientific study of flow regimes and phase fraction distributions in fuel element assemblies, chemical reactors, pipelines, and hydrodynamic machines. Furthermore, it is applicable to nondestructive testing of larger radiologically dense objects. The radiation detector is based on advanced avalanche photodiode technology in conjunction with lutetium yttrium orthosilicate scintillation crystals. The detector arc comprises 320 single detector elements which are operated in pulse counting mode. For measurements at fixed vessels or plant components, we built a computed tomography scanner gantry that comprises rotational and translational stages, power supply via slip rings, and data communication to the measurement personal computer via wireless local area network.

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Experimental investigation and CFD simulation of horizontal stratified two-phase flow phenomena

Vallée¹,

Höhne²,

Prasser³

et al. 2008

Nuclear Engineering and Design

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Planar Array Sensor for High-speed Component Distribution Imaging in Fluid Flow Applications

Silva

Sühnel

Schleicher

et al. 2007

Sensors

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A novel planar array sensor based on electrical conductivity measurements is presented which may be applied to visualize surface fluid distributions. The sensor is manufactured using printed-circuit board fabrication technology and comprises of 64 × 64 interdigital sensing structures. An associated electronics measures the electrical conductivity of the fluid over each individual sensing structure in a multiplexed manner by applying a bipolar excitation voltage and by measuring the electrical current flowing from a driver electrode to a sensing electrode. After interrogating all sensing structures, a two-dimensional image of the conductivity distribution over a surface is obtained which in turn represents fluid distributions over sensor's surface. The employed electronics can acquire up to 2500 frames per second thus being able to monitor fast transient phenomena. The system has been evaluated regarding measurement accuracy and depth sensitivity. Furthermore, the application of the sensor in the investigation of two different flow applications is presented.

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Experiments at the mixing test facility ROCOM for benchmarking of CFD codes

Kliem

Sühnel

Rohde

et al. 2008

Nuclear Engineering and Design

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Experimental investigation and CFD simulation of horizontal air/water slug flow

Vallée

Höhne

Prasser

et al. 2006

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For the investigation of air/water slug flow, a horizontal channel with rectangular cross-section was built at Forschungszentrum Rossendorf. The channel allows the investigation of air/water co- and counter-current flows at atmospheric pressure, especially the slug behaviour. Optical measurements were performed with a high-speed video camera, and were complemented by simultaneous dynamic pressure measurements. Moreover velocity-fields were measured using Particle Image Velocimetry (PIV). A CFD simulation of the stratified co-current flow was performed using the code CFX-5, applying the Euler-Euler two fluid model with the free surface option. The grid contains 4105 control volumes. The turbulence was modelled separately for each phase using the k- based shear stress transport (SST) turbulence model. To achieve wave generation in such a short channel, the inlet water level had to be varied in time. For this purpose, the water level history was taken from a recorded image sequence and set as time-dependent boundary condition at the model inlet. The results show a wave formation up to slug development with closure of the whole channel cross-section and consequently an increase of the pressure level behind the slug. Despite unsteady conditions at the inlet of the test channel and simplified initial conditions in the model, the slug simulation with CFX is in good qualitative agreement with the experiment, while the slug length increases during its progression, witch was not observed in reality.

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T. Sühnel

High resolution gamma ray tomography scanner for flow measurement and non-destructive testing applications

Experimental investigation and CFD simulation of horizontal stratified two-phase flow phenomena

Planar Array Sensor for High-speed Component Distribution Imaging in Fluid Flow Applications

Experiments at the mixing test facility ROCOM for benchmarking of CFD codes

Experimental investigation and CFD simulation of horizontal air/water slug flow

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