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345 results on '"Vierendeels J"'

1. Computational Fluid Dynamics Calibration of Tattersall Mk-II Type Rheometer for Concrete

Author

Le H.D., De Schutter G., Kadri E.H., Aggoun S., Vierendeels J., Tichko S., and Troch P.

Subjects
rheometer, cfd, calibration, shear flow, bingham, herschel-bulkley, fluent, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Currently more and more researches have been performing concerning the numerical simulation of the behavior of fresh concrete during pumping or formwork filling. Adequate implementation of the rheology properties of fresh concrete is a determinant key to obtain realistic simulations. However, in many cases, the rheological parameters of the fresh concrete as determined by rheometers are not sufficiently accurate. The common principle of all the rheometers is not to measure directly the rheological parameters of concrete but to measure some basic physical parameters (torque, velocity, pressure, …) that that in some cases allow the calculation of the rheological parameter in terms of fundamental physical quantities. Errors can be caused by undesired flow phenomena which are not taken into the prediction formulas and by the inaccurate prediction formulas themselves. This is directly related to the poor calibration of the rheometer that cannot cover all ranges of materials. This paper investigates the calibration of the Tattersall MK-II rheometer by performing the numerical simulation for a tremendous range of concrete flowing in the rheometer, using computational fluid dynamics (CFD). This allows to quickly and accurately obtain the rheological properties of fresh concrete, which can then be used consistently for further flow simulations. This method can be applied for all types of rheometer.

Published
2013
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8. Contributors

Author

Angeli, D., primary, Bartosiewicz, Y., additional, Bassini, S., additional, Bertocchi, F., additional, Castelliti, D., additional, Cheng, X., additional, Daubner, M., additional, De Moerloose, L., additional, De Ridder, J., additional, Degroote, J., additional, Del Nevo, A., additional, Di Piazza, I., additional, Duponcheel, M., additional, Eckert, S., additional, Fellmoser, F., additional, Forgione, N., additional, Franke, S., additional, Geffray, C., additional, Gerschenfeld, A., additional, Grishchenko, D., additional, Hering, W., additional, Hu, R., additional, Jäger, W., additional, Jeltsov, M., additional, Kennedy, G., additional, Koloszar, L., additional, Kööp, K., additional, Krauter, N., additional, Kudinov, P., additional, Lorusso, P., additional, Marinari, R., additional, Martelli, D., additional, Merzari, E., additional, Mickus, I., additional, Moreau, V., additional, Oder, J., additional, Pacio, J., additional, Pesetti, A., additional, Planquart, P., additional, Pointer, W.D., additional, Polidori, M., additional, Roelofs, F., additional, Rohde, M., additional, Rozzia, D., additional, Shams, A., additional, Spaccapaniccia, C., additional, Stalio, E., additional, Stieglitz, R., additional, Tarantino, M., additional, Thomas, J., additional, Tiselj, I., additional, Van Tichelen, K., additional, Vierendeels, J., additional, Wetzel, T., additional, and Wondrak, T., additional

Published
2019
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26. Multigrid methods with line and block smoothers for compressible Navier-Stokes equations

Author

Steelant, J., Dick, E., Pattijn, S., Vierendeels, J., Araki, H., editor, Brézin, E., editor, Ehlers, J., editor, Frisch, U., editor, Hepp, K., editor, Jaffe, R. L., editor, Kippenhahn, R., editor, Weidenmüller, H. A., editor, Wess, J., editor, Zittartz, J., editor, Beiglböck, W., editor, Lehr, Sabine, editor, Kutler, Paul, editor, Flores, Jolen, editor, and Chattot, Jean-Jacques, editor

Published
1997
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34. Fluid-structure interaction of a 7-rods bundle: Benchmarking numerical simulations with experimental data

Author

Bertocchi, F. (author), Rohde, M. (author), De Santis, D. (author), Shams, A. (author), Dolfen, H. (author), Degroote, J. (author), Vierendeels, J. (author), Bertocchi, F. (author), Rohde, M. (author), De Santis, D. (author), Shams, A. (author), Dolfen, H. (author), Degroote, J. (author), and Vierendeels, J. (author)

Abstract

Fluid flows through rod bundles are observed in many nuclear applications, such as in the core of Gen IV liquid metal fast breeder nuclear reactors (LMFBR). One of the main features of this configuration is the appearance of flow fluctuations in the rod gaps due to the velocity difference in the sub-channels between the rods. On one side, these pulsations are beneficial as they enhance the heat exchange between the rods and the fluid. On the other side, the fluid pulsations might induce vibrations of the flexible fuel rods, a mechanism generally referred to as Flow Induced Vibrations (FIV). Over time, this might result in mechanical fatigue of the rods and rod fretting, which eventually can compromise their structural integrity. Within the SESAME framework, a joint work between Delft University of Technology (TU Delft), Ghent University (UGent), and NRG has been carried out with the aim of performing experimental measurements of FIV in a 7-rods bundle and validate numerical simulations against the obtained experimental data. The experiments performed by TU Delft consisted of a gravity-driven flow through a 7-rods, hexagonal bundle with a pitch-to-diameter ratio P/D=1.11. A section of 200 mm of the central rod was made out of silicone, of which 100 mm were flexible. Flow measurements have been carried out with Laser Doppler Anemometry (LDA) whereas a high-speed camera has measured the vibrations induced on the silicone rod. The numerical simulations made use of the Unsteady Reynolds-averaged Navier-Stokes equations (URANS) approach for the turbulence modelling, and of strongly coupled algorithms for the solution of the fluid-structure interaction (FSI) problems. The measured frequency of the flow pulsations, as well as the mean rod displacement and vibration frequency, have been used to carry out the benchmark., RST/Reactor Physics and Nuclear Materials

Published
2020
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35. Numerical investigation of low-aspect-ratio wings at low Reynolds numbers

Author

Cosyn, P. and Vierendeels, J.

Subjects
Reynolds number -- Tests, problems and exercises, Airplanes -- Wings, Airplanes -- Mechanical properties, Airplanes -- Design and construction, Aerospace and defense industries, Business, Science and technology
Abstract

A numerical analysis is performed to study the flow around low-aspect-ratio (LAR) wings and more particularly the resulting lift-and-drag force. The research is focused on low-Reynolds-number aerodynamics, as LAR wings are crucial for the development of microair vehicles (MAVs). The flow around LAR wings is characterized by complex three-dimensional flow phenomena. These phenomena include wing-tip vortices, flow separation and reattachment, laminar to turbulent transition, and a mutual interaction among these phenomena. The flow is studied using a commercial computational fluid dynamics (CFD) program and a strip method. The CFD code is used to investigate the three-dimensional flow aerodynamics of rectangular LAR wings with an aspect ratio between 0.5 and 2 at a Reynolds number of 1 x [10.sup.5] Simulations on a flat plate and a reflex-type low-Reynolds-number profile ($5010), which is representative for a flying-wing MAV, are performed and compared. Experimental data is used for comparison and validation. The effects of flow separation and low Reynolds numbers are further investigated using a strip method. Two accurate formalized methods to predict lift and drag are derived. The first method is applicable to profiled wings with moderate low-Reynolds-number effects. The second method, which is based on the strip method, is more general and is also applicable to flat plates and wings exhibiting large regions of flow separation.

Published
2006

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