Cost analysis of different hydrogen peroxide supply strategies in the solar photo-Fenton process

Photo-Fenton process at pilot plant scale to achieve approx. 80% Mineralization acetaminophen (50mg/L initial DOC). [Display omitted] ► A cost study of different H2O2 supply strategies in the photo-Fenton process is made. ► Dissolved oxygen on-line monitoring has proved essential for cost reduction....

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2013-05, Vol.224, p.75-81
Main Authors: Carra, Irene, Ortega-Gómez, Elisabet, Santos-Juanes, Lucas, Casas López, José Luis, Sánchez Pérez, José Antonio
Format: Article
Language:English
Subjects:
chemical engineering
Controlled process
Cost analysis
decontamination
Dissolution
Dissolved oxygen
Economic assessment
Economics
Hydrogen peroxide
Hydrogen peroxide dosage
Marketing
Mineralization
monitoring
pollutants
prediction
Process operation
Solar photocatalysis
Strategy
Waste water
wastewater
water treatment
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Summary:Photo-Fenton process at pilot plant scale to achieve approx. 80% Mineralization acetaminophen (50mg/L initial DOC). [Display omitted] ► A cost study of different H2O2 supply strategies in the photo-Fenton process is made. ► Dissolved oxygen on-line monitoring has proved essential for cost reduction. ► For low mineralization requirements, costs are not sensitive to the addition strategy. ► When mineralization levels are higher, a controlled dosage would be less costly. This paper deals with the cost assessment of different hydrogen peroxide addition strategies with the assistance of dissolved oxygen on-line monitoring as the controlled variable. In this way, manual, automatic and controlled hydrogen peroxide supplies were assayed. Although the application of the photo-Fenton process to remove persistent pollutants in wastewater is accepted, there are few studies linking existing scientific and economic knowledge to evaluate further improvements in the decontamination processes. This economic study relates total costs to water treatment capacity and mineralization for a 100m2 CPC plant. Results showed that the amount of H2O2 added and the treatment time are decisive in cost reduction, dissolved oxygen monitoring being a key tool in predicting both variables. Furthermore, for low mineralization values, the addition strategy is not significant in financial terms, obtaining a mean cost of 0.53€/m3 for 50–60% mineralization. However, for higher mineralization levels, the cost is quite sensitive to mineralization changes and, so, Proportional and Integral controlled hydrogen peroxide dosing would be a better option.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2012.09.067