A parametric study of dispersed laminar gas-particle flows through vertical and horizontal channels |
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Authors: | Subrat Kotoky Amaresh Dalal Ganesh Natarajan |
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Affiliation: | Department of Mechanical Engineering, Indian Institute of Technology Guwahati, Guwahati 781039, India |
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Abstract: | Particle diameter, particle phase material density and inlet particle volume fraction are three important parameters governing the flow physics of dispersed gas-particle flows. In this work, an inhouse numerical solver is developed to investigate the effects of particle diameter (Stokes number), particle phase material density, inlet particle volume fraction and inlet phase velocities in the flow characteristics of gas-particle flows through vertical and horizontal channels and also in open domains. It is found that, for a constant inlet particle volume fraction, lower diameter particles attain a higher steady state velocity at any section inside the channel than the higher diameter particles; while the corresponding steady state gas velocity at any section increases with increase in particle diameter. On the other hand, for a constant particle diameter, the steady state gas phase velocity at any section decreases with increase in inlet particle volume fraction. Significant changes in both gas and particle velocity and volume fraction profiles have also been observed with inlet slip, i.e., when the velocities of both the phases at inlet are distinct as opposed to being equal, keeping all other flow and physical parameters invariant. |
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Keywords: | Gas-particle flow Two-fluid model Volume fraction Stokes number |
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