Robert W. Schefer scite author profile

A laser-Doppler velocimeter study of velocity profiles in the laminar boundary layer adjacent to a heated flat plate revealed that the seed particles used for the LDV measurements were driven away from the plate surface by thermophoretic forces. causing a particle-free region within the boundary layer of approximately one half the boundary layer thickness, Measurements of the thickness of this region were compared with particle trajectories calculated according to several theories for the thermophoretic force. It was found that the theory of Brock, with an improved value for the thermal slip coefficient, gave the best a~reement with experiment for low Knudsen numbers, ~/R = O(lo-). where ~ is the mean free path and R the particle radius.Data obtained by other experimenters over a wider ranqe of Knudsen numbers are compared, and a fitting formula for the thermophoretic force useful over the entire range 0 ~ ~/R ~ oo is proposed which agrees within 20-25% with the majority of the available data.

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Combustion of hydrogen-enriched methane in a lean premixed swirl-stabilized burner

Schefer¹,

Wicksall²,

Agrawal³

2002

Proceedings of the Combustion Institute

338

133

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Hydrogen enrichment for improved lean flame stability

Schefer

2003

International Journal of Hydrogen Energy

283

101

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Experimental study of the flow field in and around a one meter diameter methane fire

Tieszen

O’Hern

Schefer

et al. 2002

Combustion and Flame

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Experimental study of a turbulent buoyant helium plume

et al. 2005

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An experimental study has been performed on the dynamics of a large turbulent buoyanthelium plume. Two-dimensional velocity fields were measured using particle image velocimetry (PIV) while helium mass fraction was determined by planar laser-induced fluorescence (PLIF). PIV and PLIF were performed simultaneously in order to obtain velocity and mass fraction data over a plane that encompassed the plume core, the near-field mixing zones and the surrounding air. The Rayleigh–Taylor instability at the base of the plume leads to the vortex that grows to dominate the flow. This process repeats in a cyclical manner. The temporally and spatially resolved data show a strong negative correlation between density and vertical velocity, as well as a strong 90° phase lag between peaks in the vertical and horizontal velocities throughout the flow field owing to large coherent structures associated with puffing of the turbulent plume. The joint velocity an mass fraction data are used to calculate Favre-averaged statistics in addition to Reynolds-(time) averaged statistics. Unexpectedly, the difference between both the Favre-averaged and Reynolds-averaged velocities and second-order turbulent statistics is less than the uncertainty in the data throughout the flow field. A simple analysis was performed to determine the expected differences between Favre and Reynolds statistics for flows with periodic fluctuations in which the density and velocity fields are perfectly correlated, but have the phase relations as suggested by the data. The analytical results agreewith the data, showing that the Favre and Reynolds statistics will be the same to lead order. The combination of observation and simple analysis suggests that for buoyancy-dominated flows in which it can be expected that density and velocity are strongly correlated,phase relations will result in only second-order differences between Favre- and Reynolds-averaged data in spite of strong fluctuations in both density and velocity.

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Robert W. Schefer

Thermophoresis of particles in a heated boundary layer

Combustion of hydrogen-enriched methane in a lean premixed swirl-stabilized burner

Hydrogen enrichment for improved lean flame stability

Experimental study of the flow field in and around a one meter diameter methane fire

Experimental study of a turbulent buoyant helium plume

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