Gravitational effect formulation on in-house air-particle flow solver
Distribution control of particles in air is only simulated in current years when computational power is slowly fading from being an issue. This work is preformed specifically to analyse the effect of additional gravitational effect feature in our newly developed in-house fluidparticle software. The...
| Main Authors: | , , , , , |
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| Format: | Article |
| Published: |
Trans Tech Publications Inc
2014
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| Subjects: | |
| Online Access: | http://dx.doi.org/10.4028/www.scientific.net/AMM.660.699 http://dx.doi.org/10.4028/www.scientific.net/AMM.660.699 http://eprints.uthm.edu.my/6400/1/Gravitational_Effect_Formulation_on_In%2DHouse_Air%2DParticle_Flow_Solver.pdf |
| Summary: | Distribution control of particles in air is only simulated in current years when
computational power is slowly fading from being an issue. This work is preformed specifically to
analyse the effect of additional gravitational effect feature in our newly developed in-house fluidparticle
software. The effect is included in the Eulerian-Lagrangian solver so that it capable of
simulating heavy particles in environmental air flows. Flow distributions of heavy particles such as
liquid aerosol, sand or granular fertilizer are greatly affected by gravitational effect as compared to
relatively buoyant particles such as smoke and light dust. Transient particle distribution in a
ventilated room is simulated in this work. 10,000 particles that represent homogenous 2 mm
Hemlock wood dust were randomly distributed in 3.3x2.8x5.9 m3 ventilated room that consist of
two ceiling air intake and four bottom wall ventilation outlets. Homogeneous Hemlock wood solid
sphere particles with diameter of 2 mm is simulated while the air intake is equivalent to 0.0944
m3/s. Simulation without the particle gravitational effect shows physically irrational results where
26 % of particles stayed at the top half of the room. Simulation with particle gravitational effect
shows otherwise where 92 % of the particles settled at the bottom half of the room when measures
at the same transient duration. The introduction of gravitational effect in the newly developed inhouse
air-particle solver can be considered as the turning point where simulations of environmental
air-particle related studies such as dust ventilation, aerosol control or even granular fertilizer
distributions out of boom sprayer are possible. |
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