Sewage sludge based catalysts for catalytic wet air oxidation of phenol: Preparation, characterisation and catalytic performance

[Display omitted] ▶ Sewage sludge based activated carbons (SBACs) were produced from two sludges. ▶ The SBACs all exhibited catalytic activity. ▶ The SBACs’ significant Fe content appeared to facilitate their catalytic properties. ▶ The SBACs’ performance strongly correlated with their BET surface a...

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Bibliographic Details
Published in:Applied catalysis. B, Environmental Environmental, 2011-01, Vol.101 (3-4), p.306-316
Main Authors: Marques, R.R.N., Stüber, F., Smith, K.M., Fabregat, A., Bengoa, C., Font, J., Fortuny, A., Pullket, S., Fowler, G.D., Graham, N.J.D.
Format: Article
Language:English
Subjects:
Activated carbon
Activation
Adsorbents
Batch reactor
Carbon
Catalysis
Catalysts
Catalytic wet air oxidation
Chemistry
Correlation
Exact sciences and technology
General and physical chemistry
Phenol
Sewage sludge
Sludge
Surface area
Surface physical chemistry
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
Wastewater treatment
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Summary:[Display omitted] ▶ Sewage sludge based activated carbons (SBACs) were produced from two sludges. ▶ The SBACs all exhibited catalytic activity. ▶ The SBACs’ significant Fe content appeared to facilitate their catalytic properties. ▶ The SBACs’ performance strongly correlated with their BET surface area. ▶ The acid washed SBACs’ phenol conversion values were ca. 96% of the commercial AC's. In this study the use of novel CWAO catalysts, namely potentially low cost, sewage sludge derived activated carbons was explored. Two types of municipal sludge were used: dewatered raw filter cake and dewatered mesophilic anaerobically digested sludge. The carbons were produced by: carbonisation; physical activation (steam or CO2) and chemical activation (K2CO3). Hydrochloric acid washing of some of the carbons was also investigated. The carbons were characterised in terms of their surface area, contact pH, propensity towards metal leaching, surface chemistry (via FTIR), ash content and inorganic elemental composition. Their CWAO performance was assessed at 160°C and a partial oxygen pressure of 4.2bar (25bar of air) within a stirred batch reactor containing a 5g/L phenol solution. All the carbons exhibited catalytic activity, with the K2CO3 activated and HCl washed carbons attaining a phenol and TOC removal that matched the performance of an activated carbon specifically manufactured for oxidative wastewater treatment applications. A strong correlation was found between surface area and phenol or TOC conversion, suggesting that surface area is a primary requisite for their performance in the first batch cycle. Thus, the oxidation of phenol is thought to proceed via a free radical driven mechanism. The active sites necessary to facilitate this mechanism, whether present as surface functional groups or active metals (e.g., Fe), were detected on all of the sludge based activated carbons. However, no clear correlation between phenol conversion and these active sites could be established.
ISSN:0926-3373
1873-3883
DOI:10.1016/j.apcatb.2010.09.033