References

  1. D. Bahnemann, Photocatalytic water treatment: solar energy applications, Solar Energy, 77 (2004) 445–459.
  2. T. van Gerven, G. Mul, J. Moulijn, A. Stankiewicz, A review of intensification of photocatalytic processes, Chem. Eng. Process., 46 (2007) 781–789.
  3. H. Lin, K. Valsaraj, Development of an optical fiber monolith reactor for photocatalytic wastewater treatment, J. Appl. Electrochem., 35 (2005) 699–708.
  4. D. Ollis, Kinetics disguises in heterogeneous photocatalysis, Top. Catal., 35 (2005) 217–223.
  5. D.D. Dionysiou, M.T. Suidan, I. Baudin, J.M. Laine, Oxidation of organics contaminants in a rotating disk photocatalytic reactor: reaction kinetics in liquid phase and the role of mass transfer based on the dimensionless Damköhler number, Appl. Catal., B, 38 (2002) 1–16.
  6. S. Fogler, Elements of Chemical Reaction Engineering, Pearson Education, New York, 2006.
  7. O.A. Cirpka, A. Olsson, Q. Ju, Md. A. Rahman, P. Grathwohl, Determination of transverse dispersion coefficients from reactive plume lengths, Ground Water, 44 (2006) 212–221.
  8. Q. Kang, I. Tsimpanogiannis, D. Zhang, P. Lichtner, Numerical modeling of pore-scale phenomena during CO2 sequestration in oceanic sediments, Fuel Process Technol., 86 (2005) 1647–1665.
  9. O. Levenspiel, Chemical Reaction Engineering, John Wiley & Sons, 1972.
  10. G.S. Shephard, S. Stockenstörm, D. de Villiers, W.J. Engelbrecht, G.F.S. Wessels, Degradation of microcystin toxins in a falling film photocatalytic reactor with immobilized titanium dioxide catalyst, Water Res., 36 (2002) 140–146.
  11. Md. M. Hossain, G.B. Raupp, Radiation field modeling in a photocatalytic monolith reactor, Chem. Eng. Sci., 53 (1998) 3771–3780.