@LatEnvChemPSE
"MODELING OF THE RADIANT FIELD in ANNULAR AND TUBULAR PHOTOCATALYTIC REACTORS WITH THE P1-APPROXIMATION OF THE RADIATIVE TRANFER EQUATION IN TWO DIMENSIONS (P1-2D)" #PSEModSimulatControl#LatinEnvChemPSE
@LatinXChem Hi, I hope you are doing good.
I just to mention that I haven't yet received the certificate of participation. Could you help me to solve that, please? Thanks.
Two-dimensional P1 approximation (P1-2D) for the evaluation of the radiant field in annular and tubular photocatalytic reactors https://t.co/75Wn1jG5wQ
@Zendoross R0 represents the degradation with the fresh catalyst and it’s obvious that the catalyst performance is reduced with the increase in the order of cycle of reuse.
Of course, the mineralization with the fresh catalyst was the best but the graph was not shown for lack of space.
@Zendoross Hi, Fig 5 a and b) show the SMX degradation and mineralization with the fresh catalyst respectively and 0.3 g/L stood as the optimum catalyst load; meanwhile, Fig 5c shows only the degradation of each of the 5 cycles of reuse with the same catalyst loading.
@Zendoross Hi, thanks for your interesting question.
You are right, but the turbulent mode was ensured to facilitate the mass transfer, that’s the reason why the mass transfer effect was neglected. Anyway, this effect will be considered in the model in future works.
@Lizethly3382 Hello, thanks for your very pertinent question and for appreciating my work.
Sorry for replying with a pic, for a long text, I am charged by Twitter.
I am looking forward to your observations, thanks.
@LatinXChem. Title: Mathematical modeling for the solar photocatalytic degradation of sulfamethoxazole considering TiO₂-P25 reuse on a CPC photocatalytic reactor. #LatinXChemEnv#LatinXChem24