Experimental study on particle fluctuation velocity of a horizontal pneumatic conveying near the minimum conveying velocity

► The mechanics of particle fluctuation velocity in a horizontal pneumatic conveying was studies. ► The particle fluctuation velocity at the minimum air velocity was measured by the high-speed PIV. ► Power spectrum, correlation, intensity of particle fluctuation velocity, and PDF were analyzed. ► Th...

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Bibliographic Details
Published in:International journal of multiphase flow 2012-04, Vol.40, p.126-135
Main Authors: Rinoshika, Akira, Yan, Fei, Kikuchi, Masanori
Format: Article
Language:English
Subjects:
Applied sciences
Continuous conveyors: mechanical, hydraulic, pneumatic, etc
Exact sciences and technology
Fluid dynamics
Fundamental areas of phenomenology (including applications)
Gas–solid two-phase flow
High-speed PIV
Instrumentation for fluid dynamics
Intensity of particle fluctuation velocity
Material handling, hoisting. Storage. Packaging
Minimum conveying velocity
Multiphase and particle-laden flows
Nonhomogeneous flows
Particle velocity correlation
Physics
Pneumatic conveying
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Summary:► The mechanics of particle fluctuation velocity in a horizontal pneumatic conveying was studies. ► The particle fluctuation velocity at the minimum air velocity was measured by the high-speed PIV. ► Power spectrum, correlation, intensity of particle fluctuation velocity, and PDF were analyzed. ► The low intensity of particle fluctuation velocity may result in the low conveying pressure drop. The high-speed particle image velocimetry (PIV) is employed to measure the distribution of particle fluctuation velocity near the minimum conveying velocity in the acceleration and fully developed regimes in a horizontal pneumatic conveying. The fluctuation characteristics of particle velocity are examined in terms of time-averaged particle velocity and concentration, power spectrum, auto-correlation coefficients, two-point correlation coefficients, intensity of particle fluctuation velocity, skewness factor and probability density function. It is revealed that the profile of the time-averaged particle velocity depends on the conveying velocity and solids loading ratio in the bottom part of the pipe in the fully developed regime. A quasi-periodical particle flow pattern with the lower frequency appears in this region and dominates the pressure drop of the pneumatic conveying. The intensities of particle fluctuation velocity of the sliding strand flows in the bottom part of pipe are smaller that of the suspension flows in the top part of pipe, revealing that the low intensity of particle fluctuation velocity can result in the low conveying pressure drop. The particle fluctuation velocity of the low or minimum conveying velocity follows the Gaussian probability distribution in the fully developed regime.
ISSN:0301-9322
1879-3533
DOI:10.1016/j.ijmultiphaseflow.2011.11.007