Modeling and Experimental Verification of a Flat-Plate Solar Photoreactor

A nonconcentrating, flat-plate solar photoreactor has been modeled and experimentally verified. The mathematical model considers that the reactor glass window receives direct and diffuse (isotropic) solar radiation. The model was solved numerically and predictions were compared with photodecompositi...

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Veröffentlicht in:Industrial & engineering chemistry research 1998-09, Vol.37 (9), p.3592-3601
Hauptverfasser: Rossetti, Germán H, Albizzati, Enrique D, Alfano, Orlando M
Format: Artikel
Sprache:eng
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Zusammenfassung:A nonconcentrating, flat-plate solar photoreactor has been modeled and experimentally verified. The mathematical model considers that the reactor glass window receives direct and diffuse (isotropic) solar radiation. The model was solved numerically and predictions were compared with photodecomposition rate data, employing the uranyl oxalate actinometer. The reaction was conducted in an isothermal, perfectly mixed reactor placed inside a batch recycling system. The experimental values were compared with theoretical predictions and good agreement was obtained, the maximum deviation being 12%. The effect of the actinometer concentration and of the solar zenith angles (for horizontal and tilted reactors) on the actinometer decomposition rate was investigated. Results indicated that the uranyl oxalate reaction rate increases when (i) the initial actinometer concentration increases at almost constant solar zenith angle and (ii) the zenith angle decreases at the same initial actinometer concentration.
ISSN:0888-5885
1520-5045
DOI:10.1021/ie9709188