화학공학소재연구정보센터
Chemical Engineering and Processing, Vol.62, 129-136, 2012
Experimental and numerical studies of a solar photocatalytic process in a dynamic mode applied to three catalyst media
Heterogeneous photocatalysis is able to degrade organic micropollutants in a non-selective manner and in contrast to existing tertiary processes (UVC, ozonation, membranes), solar photocatalysis permits a treatment process that, energy-wise, is clean, that is to say self-sufficient. In this context, an efficient use of the sunlight represents a major challenge in the conception and the development of this technology adapted for a sustainable water treatment. Basically, such efficiency is highly dependent of the photocatalytic media implemented in the reactor. Within the objective to study the potential of the process intensification, three different options were tested, i.e.: the conventional suspension of a photocatalyst powder: a commercial 2D photocalytic media; aluminum foam with supported photocatalyst. In a first step, for each media, pollutant (2-4 DCP) mineralization kinetics was determined in identical and controlled working conditions with a setup using UV artificial radiations. Thereafter, the model's robustness in artificial controlled conditions was validated with outdoor experiments that take necessary into account the intermittent flux of sunlight. Finally, simulations performed during a full working year demonstrated the major influence of the photocatalytic media selected on the treatment capacity of the process. (C) 2012 Elsevier B.V. All rights reserved.