Roberto L. Romero scite author profile

The radiation field for an annular-type photocatalytic reactor has been modeled, and the resulting integro-differential equation has been solved resorting to the discrete ordinate method. The spatial domain was described in terms of two cylindrical coordinates and the field of direction with two angular variables. The radiation entering through the inner reactor wall was obtained from the extended source with voluminal emission model. The system parameters for the radiative-transfer equation were taken from experimental measurements. Resorting to computational experiments, the effects produced by different concentrations of (1) transparent scattering centers and (2) radiation absorbing (catalytic) particles were investigated. In the second case, Aldrich and Degussa P 25 titanium dioxide particles were used. The following information is reported: (1) specific intensities as a function of position inside the reactor and of the angular distribution of directions; (2) incident radiation profiles and local volumetric rate of energy absorption profiles, both as a function of the spatial position inside the reactor.

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Radiation field modelling in photoreactors—I. homogeneous media

Alfano¹,

Romero²,

Cassano³

1986

Chemical Engineering Science

121

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Photocatalytic intrinsic reaction kinetics I: Mineralization of dichloroacetic acid

Zalazar

Romero

Martín

et al. 2005

Chemical Engineering Science

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Roberto L. Romero

Cylindrical Photocatalytic Reactors. Radiation Absorption and Scattering Effects Produced by Suspended Fine Particles in an Annular Space

Radiation field modelling in photoreactors—I. homogeneous media

Photocatalytic intrinsic reaction kinetics I: Mineralization of dichloroacetic acid

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