John Akach scite author profile

Solar illuminated reactors have been used by several researchers for photocatalytic wastewater treatment. In this work, the light distribution in a solar illuminated slurry bubble column reactor was investigated using the Monte Carlo method. The model was validated using total refracted radiation (TRR) measurements at the unilluminated reactor wall. A fairly good agreement between the simulated and experimental TRR measurements was achieved. Bubbles were shown to affect the transmission of direct light much more than that of diffuse light. While the solar diffuse fraction and bubbles strongly affected the TRR at low catalyst loadings, they had a negligible effect on the overall light absorption. The catalyst significantly affected the light distribution with an optimal catalyst loading of 0.15 g/L being deduced from the simulation. An analysis of the local volumetric rate of energy absorption (LVREA) revealed fairly uniform light absorption along the axial direction. The radial LVREA profiles were nonuniform with the region of highest LVREA shifting from the unilluminated side of the reactor at low catalyst loadings to the illuminated side at high catalyst loadings. This study highlighted the rigor, accuracy, and utility of the Monte Carlo method for simulation of the solar light distribution.

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Adsorption and Photodegradation of Sulfamethoxazole in a Three-phase Fluidized Bed Reactor

Akach¹,

Ochieng²

2019

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Simulation of Photocatalytic Reactors

Akach¹,

Kabuba²,

Ochieng³

2023

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John Akach

Monte Carlo simulation of the light distribution in an annular slurry bubble column photocatalytic reactor

Simulation of the Light Distribution in a Solar Photocatalytic Bubble Column Reactor Using the Monte Carlo Method

Adsorption and Photodegradation of Sulfamethoxazole in a Three-phase Fluidized Bed Reactor

Simulation of Photocatalytic Reactors

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