Phase I Trial of Bortezomib (PS-341; NSC 681239) and “Nonhybrid” (Bolus) Infusion Schedule of Alvocidib (Flavopiridol; NSC 649890) in Patients with Recurrent or Refractory Indolent B-cell Neoplasms

This paper presents and discusses the results of an experimental program that has been made on an air test rig of a radial flow pump. The tested impeller is the so-called SHF impeller. Many experimental data have already been produced (tests in air and in water) on that geometry and these results are still used as databases for the validation of CFD codes. For the present study, an air test rig has been chosen for optical access facilities and measurements were realized with a vaneless diffuser. The 2D Particle Image Velocimetry technique has been used and measurements of flow velocities have been made simultaneously in the outer part of the impeller and in the vaneless diffuser. Measurements have been realized in five planes, in the hub to shroud direction, for various relative flow rates (design and off-design operating conditions). First, the paper focus on the evolutions of the phase averaged velocity charts in the impeller and the diffuser. Limitations of the phase averaging technique clearly appear in the very low partial flow rates and this will be related to previous pressure measurements analysis establishing the occurrence of rotating stall within the impeller for such operating conditions. The paper also proposes an analysis of the rates of fluctuations of the velocity charts and the evolutions in the various measuring planes as the relative flow rate becomes lower.

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Analysis of the Rotor-Stator Interaction in a Radial Flow Pump

Cavazzini

Pavesi

Ardizzon

et al. 2009

La Houille Blanche

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High-speed stereoscopic PIV study of rotating instabilities in a radial vaneless diffuser

et al. 2011

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This paper presents an experimental analysis of the unsteady phenomena developing in a vaneless diffuser of a radial flow pump. Partial flow operating conditions were investigated using 2D/3C high repetition rate PIV, coupled with unsteady pressure transducers. Pressure measurements were acquired on the shroud wall of the vaneless diffuser and on the suction pipe of the pump, whereas PIV flow fields were determined on three different heights in the hub to shroud direction, inside the diffuser. The classical Fourier analysis was applied to both pressure signals to identify the spectral characteristics of the developing instabilities, and the high-order spectral analysis was exploited to investigate possible non-linear interaction mechanisms between different unsteady structures. A dedicated PIV averaging procedure was developed and applied to the PIV flow fields so as to capture and visualize the topology of the spectrally identified phenomena. The influence of these phenomena on the diffuser efficiency was also investigated

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Experimental characterization of the instability of the vortex rings. Part II: Non-linear phase

2006

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Rotating instability in the vaneless diffuser of a radial flow pump

et al. 2008

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Experimental characterization of the instability of the vortex ring. Part I: Linear phase

2005

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Incompressible Navier-Stokes computations with SUPG and GLS formulations—A comparison study

Hannani

Stanislas

Dupont

1995

Computer Methods in Applied Mechanics and Engineering

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Patrick Dupont

Reduction of metal streak artifacts in X-ray computed tomography using a transmission maximum a posteriori algorithm

PIV Measurements in the Impeller and the Vaneless Diffuser of a Radial Flow Pump in Design and Off-Design Operating Conditions

Analysis of the Rotor-Stator Interaction in a Radial Flow Pump

High-speed stereoscopic PIV study of rotating instabilities in a radial vaneless diffuser

Experimental characterization of the instability of the vortex rings. Part II: Non-linear phase

Rotating instability in the vaneless diffuser of a radial flow pump

Experimental characterization of the instability of the vortex ring. Part I: Linear phase

Incompressible Navier-Stokes computations with SUPG and GLS formulations—A comparison study

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