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Influence of Irradiance, Flow Rate, Reactor Geometry, and Photopromoter Concentration in Mineralization Kinetics of Methane in Air and in Aqueous Solutions by Photocatalytic Membranes Immobilizing Titanium Dioxide
- Source :
- International Journal of Photoenergy, Vol 2008 (2008)
- Publication Year :
- 2008
- Publisher :
- Hindawi Limited, 2008.
-
Abstract
- Photomineralization of methane in air (10.0–1000 ppm (mass/volume) of C) at100%relative humidity (dioxygen as oxygen donor) was systematically studied at318±3 K in an annular laboratory-scale reactor by photocatalytic membranes immobilizing titanium dioxide as a function of substrate concentration, absorbed power per unit length of membrane, reactor geometry, and concentration of a proprietary vanadium alkoxide as photopromoter. Kinetics of both substrate disappearance, to yield intermediates, and total organic carbon (TOC) disappearance, to yield carbon dioxide, were followed. At a fixed value of irradiance (0.30 W⋅cm-1), the mineralization experiments in gaseous phase were repeated as a function of flow rate (4–400 m3⋅h−1). Moreover, at a standard flow rate of 300 m3⋅h−1, the ratio between the overall reaction volume and the length of the membrane was varied, substantially by varying the volume of reservoir, from and to which circulation of gaseous stream took place. Photomineralization of methane in aqueous solutions was also studied, in the same annular reactor and in the same conditions, but in a concentration range of 0.8–2.0 ppm of C, and by using stoichiometric hydrogen peroxide as an oxygen donor. A kinetic model was employed, from which, by a set of differential equations, four final optimised parameters,k1andK1,k2andK2, were calculated, which is able to fit the whole kinetic profile adequately. The influence of irradiance onk1andk2, as well as of flow rate onK1andK2, is rationalized. The influence of reactor geometry onkvalues is discussed in view of standardization procedures of photocatalytic experiments. Modeling of quantum yields, as a function of substrate concentration and irradiance, as well as of concentration of photopromoter, was carried out very satisfactorily. Kinetics of hydroxyl radicals reacting between themselves, leading to hydrogen peroxide, other than with substrate or intermediates leading to mineralization, were considered, and it is paralleled by a second competition kinetics involving superoxide radical anion.
- Subjects :
- CHIM/03 - CHIMICA GENERALE E INORGANICA
Aqueous solution
Article Subject
Renewable Energy, Sustainability and the Environment
Chemistry
lcsh:TJ807-830
Inorganic chemistry
lcsh:Renewable energy sources
Substrate (chemistry)
General Chemistry
Atomic and Molecular Physics, and Optics
Methane
Volumetric flow rate
chemistry.chemical_compound
Yield (chemistry)
Titanium dioxide
Photocatalysis
General Materials Science
Photocatalysis, membranes, kinetics, methane, irradiance
Hydrogen peroxide
Subjects
Details
- ISSN :
- 1687529X and 1110662X
- Volume :
- 2008
- Database :
- OpenAIRE
- Journal :
- International Journal of Photoenergy
- Accession number :
- edsair.doi.dedup.....74e7cdabfc475c8831906811234591e3