Add to ORKGThe measurement of the mass transfer rate to flush mounted wall electrodes is a commonly used method to determine the wall shear stress. An analysis for the performance of these probes in the presence of large amplitude unsteady flows is presented. This is accomplished by using numerical solutions of the direct (the variation of the wall shear stress with time is given) and the inverse problem (the variation of mass transfer rate with time is given). For cases in which flow reversal occurs additional information about the flow direction is needed
Fluid shear stress is one of the most important quantities charac-terizing the interaction between a...
Flush-mounted cavity hot-wire probes have been around since two decades, but have typically not been...
A thermal wave based method for wall shear stress measurement is described in this paper. A heat con...
Wall shear rates in large amplitude unsteady flows that cause flow reversal can be measured by using...
The frequency response of a mass transfer probe is investigated by numerical methods in view of the ...
International audienceRehimi et al. [1] numerically studied the frequency response of an electrochem...
A probe for wall shear stress measurements in nominally 2-D flows has been developed and tested. In...
The performance of a circular electrochemical wall shear rate probe under unsteady flow conditions i...
This contribution deals with a new theory describing mass transport in the vicinity of the measuring...
International audienceParallel plate disks (PPD) are often used for analyzing the effect of small am...
Hot-wire and hot-film anemometry are widely used in steady flows for instantaneous velocity measurem...
In this study, an inverse method is presented so as to determine the wall shear rate in a scraped su...
In a dynamic weighing gas mass flow measurement, the gas mass flow rate is continuously determined b...
A hot-film sensor, a thin metal film deposited on a solid substrate, is mounted flush with the wall ...
The paper is focused on quantitative evaluation of the value of the wall shear stress in liquids wit...
Fluid shear stress is one of the most important quantities charac-terizing the interaction between a...
Flush-mounted cavity hot-wire probes have been around since two decades, but have typically not been...
A thermal wave based method for wall shear stress measurement is described in this paper. A heat con...
Wall shear rates in large amplitude unsteady flows that cause flow reversal can be measured by using...
The frequency response of a mass transfer probe is investigated by numerical methods in view of the ...
International audienceRehimi et al. [1] numerically studied the frequency response of an electrochem...
A probe for wall shear stress measurements in nominally 2-D flows has been developed and tested. In...
The performance of a circular electrochemical wall shear rate probe under unsteady flow conditions i...
This contribution deals with a new theory describing mass transport in the vicinity of the measuring...
International audienceParallel plate disks (PPD) are often used for analyzing the effect of small am...
Hot-wire and hot-film anemometry are widely used in steady flows for instantaneous velocity measurem...
In this study, an inverse method is presented so as to determine the wall shear rate in a scraped su...
In a dynamic weighing gas mass flow measurement, the gas mass flow rate is continuously determined b...
A hot-film sensor, a thin metal film deposited on a solid substrate, is mounted flush with the wall ...
The paper is focused on quantitative evaluation of the value of the wall shear stress in liquids wit...
Fluid shear stress is one of the most important quantities charac-terizing the interaction between a...
Flush-mounted cavity hot-wire probes have been around since two decades, but have typically not been...
A thermal wave based method for wall shear stress measurement is described in this paper. A heat con...