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W4214587165 abstract "First of all, the main body is taken out from new photocatalytic reactor system, which computing system is composed of three parts, including the quartz windows on both sides, water body and TNTs/Ti meshes (per layer: 150 mm×35 mm×0.2 mm, porosity size: 1mm×2mm), respectively. Subsequently, the effective reactor system combined with double-LED arrays is established the coordinate system, wherein it divided into 1/4 unit for numerical-model building for improving the speed of computation. Ultimately, the calculation results were further attained through the physical boundaries symmetry. • A three-dimensional model of the LED arrays onto a new reaction system is established. • The focus is on the three-dimensional distribution phenomenon and total light absorption values of the TNTs/Ti meshes, which has a guiding significance for the full utilization and arrangement of the catalyst of the photochemical system. • It is proved that the single-sided LED arrays light radiation obeys the second-order exponential decay law in the water containing TNTs/Ti meshes and the double-sided LED arrays light transmission and superposition in the water obeys the Fourier series law. A novel radiation model was established for guiding the development of photochemical reactors to promote the simulation technology onto the fields of photochemical engineering. As the mainstreaming software, the comsol@5.5 with (User Define Function) UDF, described the physical phenomenon on the light distribution in the water with titanium dioxide nanotubes/Ti (TNTs/Ti) mesh layers. During the process, the light-emitting diode (LED) arrays radiation model on the external interface on the reactor constructed by CAD, was solved by means of UDF compiled. Afterwards, the results calculated in the comsol@5.5, acted the boundary conditions as bilateral incidents illumination of the reactor. Eventually, the research obtained the distribution results by solving the radiative transfer equation (RTE), presenting the numerical simulation computing results." @default.
W4214587165 created "2022-03-02" @default.
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W4214587165 date "2022-08-01" @default.
W4214587165 modified "2023-09-28" @default.
W4214587165 title "Design-simulation of light radiation of a novel fixed-bed photocatalytic system with LED arrays on the engineering-outlook" @default.
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W4214587165 doi "https://doi.org/10.1016/j.jphotochem.2022.113889" @default.
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