Remediation of contaminated soils by thermal desorption; effect of benzoyl peroxide addition
In situ remediation of contaminated sites by thermal desorption is a widely accepted technology that provides a permanent solution at an economically competitive cost. In this paper, thermal desorption of various model contaminants was tested at the bench scale. Polyaromatic hydrocarbons (benzene/to...
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| Veröffentlicht in: | Journal of cleaner production Jg. 125; S. 309 - 313 |
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| Sprache: | Englisch |
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01.07.2016
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| ISSN: | 0959-6526, 1879-1786 |
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| Abstract | In situ remediation of contaminated sites by thermal desorption is a widely accepted technology that provides a permanent solution at an economically competitive cost. In this paper, thermal desorption of various model contaminants was tested at the bench scale. Polyaromatic hydrocarbons (benzene/toluene/xylene) and non-polar extractable compounds were selected as representatives. The electrically heated static oven worked up to 380 °C with temperature gradient 6 °C/min, under air flow (0.6 m3/h). Prior to an experiment, model contaminants (xylene, 2-methylnaphtalene or motor oil) were mixed with 18 kg of model soil in concentrations 2−10 g/kg. The desorption process was performed with and without addition of 1 wt. % of benzoyl peroxide as an oxidant. The aim of the oxidant addition was to facilitate the chemical catalytic decomposition and/or biodegradation of desorbed organics from the soil as an alternative to usually employed incineration. In the course of the desorption process, part of the organic contaminants was oxygenated and liquids obtained after condensation of the desorbed contaminant vapours were subsequently treated by biodegradation. The application of benzoyl peroxide significantly accelerated biodegradation of organic compounds present in the condensates by Pseudomonas sp. Moreover, it was shown that the presence of partial oxidation products in the condensates did not increase their eco-toxicity.
•Thermal desorption of contaminated soils at presence of 1wt% benzoyl peroxide.•Mineral oils, xylene and 2-methylnaphthalene were tested as contaminants.•Numerous oxygenated products were detected in vapours from thermal desorption.•Biodegradation by Pseudomonas strain was applied for decontamination of organics.•Presence of oxygenated products significantly accelerates the biodegradation process. |
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| AbstractList | In situ remediation of contaminated sites by thermal desorption is a widely accepted technology that provides a permanent solution at an economically competitive cost. In this paper, thermal desorption of various model contaminants was tested at the bench scale. Polyaromatic hydrocarbons (benzene/toluene/xylene) and non-polar extractable compounds were selected as representatives. The electrically heated static oven worked up to 380 °C with temperature gradient 6 °C/min, under air flow (0.6 m³/h). Prior to an experiment, model contaminants (xylene, 2-methylnaphtalene or motor oil) were mixed with 18 kg of model soil in concentrations 2−10 g/kg. The desorption process was performed with and without addition of 1 wt. % of benzoyl peroxide as an oxidant. The aim of the oxidant addition was to facilitate the chemical catalytic decomposition and/or biodegradation of desorbed organics from the soil as an alternative to usually employed incineration. In the course of the desorption process, part of the organic contaminants was oxygenated and liquids obtained after condensation of the desorbed contaminant vapours were subsequently treated by biodegradation. The application of benzoyl peroxide significantly accelerated biodegradation of organic compounds present in the condensates by Pseudomonas sp. Moreover, it was shown that the presence of partial oxidation products in the condensates did not increase their eco-toxicity. In situ remediation of contaminated sites by thermal desorption is a widely accepted technology that provides a permanent solution at an economically competitive cost. In this paper, thermal desorption of various model contaminants was tested at the bench scale. Polyaromatic hydrocarbons (benzene/toluene/xylene) and non-polar extractable compounds were selected as representatives. The electrically heated static oven worked up to 380 °C with temperature gradient 6 °C/min, under air flow (0.6 m3/h). Prior to an experiment, model contaminants (xylene, 2-methylnaphtalene or motor oil) were mixed with 18 kg of model soil in concentrations 2−10 g/kg. The desorption process was performed with and without addition of 1 wt. % of benzoyl peroxide as an oxidant. The aim of the oxidant addition was to facilitate the chemical catalytic decomposition and/or biodegradation of desorbed organics from the soil as an alternative to usually employed incineration. In the course of the desorption process, part of the organic contaminants was oxygenated and liquids obtained after condensation of the desorbed contaminant vapours were subsequently treated by biodegradation. The application of benzoyl peroxide significantly accelerated biodegradation of organic compounds present in the condensates by Pseudomonas sp. Moreover, it was shown that the presence of partial oxidation products in the condensates did not increase their eco-toxicity. •Thermal desorption of contaminated soils at presence of 1wt% benzoyl peroxide.•Mineral oils, xylene and 2-methylnaphthalene were tested as contaminants.•Numerous oxygenated products were detected in vapours from thermal desorption.•Biodegradation by Pseudomonas strain was applied for decontamination of organics.•Presence of oxygenated products significantly accelerates the biodegradation process. In situ remediation of contaminated sites by thermal desorption is a widely accepted technology that provides a permanent solution at an economically competitive cost. In this paper, thermal desorption of various model contaminants was tested at the bench scale. Polyaromatic hydrocarbons (benzene/toluene/xylene) and non-polar extractable compounds were selected as representatives. The electrically heated static oven worked up to 380 degree C with temperature gradient 6 degree C/min, under air flow (0.6 m super(3)/h). Prior to an experiment, model contaminants (xylene, 2-methylnaphtalene or motor oil) were mixed with 18 kg of model soil in concentrations 2-10 g/kg. The desorption process was performed with and without addition of 1 wt. % of benzoyl peroxide as an oxidant. The aim of the oxidant addition was to facilitate the chemical catalytic decomposition and/or biodegradation of desorbed organics from the soil as an alternative to usually employed incineration. In the course of the desorption process, part of the organic contaminants was oxygenated and liquids obtained after condensation of the desorbed contaminant vapours were subsequently treated by biodegradation. The application of benzoyl peroxide significantly accelerated biodegradation of organic compounds present in the condensates by Pseudomonas sp. Moreover, it was shown that the presence of partial oxidation products in the condensates did not increase their eco-toxicity. |
| Author | Soukup, Karel Kastanek, Frantisek Solcova, Olga Demnerova, Katerina Topka, Pavel Maleterova, Ywetta Kastanek, Petr |
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| Cites_doi | 10.1016/S0304-3894(01)00294-1 10.1002/jsfa.2740370915 10.1002/tox.20223 10.1016/j.apcata.2012.07.018 10.1016/j.jphotochem.2006.10.018 10.3390/w7095031 10.30638/eemj.2008.109 10.1080/03650340.2014.905676 10.1016/S0926-860X(02)00096-0 10.2166/wst.1999.0581 10.1002/jctb.1020 10.1016/0304-3894(94)85033-X 10.1016/j.jhazmat.2004.09.026 |
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| SubjectTerms | air flow benzene Benzoyl peroxide Biodegradation Bioremediation Condensates Contaminants Desorption heat treatment Hydrocarbons oils ovens oxidants oxidation Oxidizing agents peroxides polluted soils polycyclic aromatic hydrocarbons Pseudomonas Remediation Soil Soils Thermal desorption toluene vapors xylene |
| Title | Remediation of contaminated soils by thermal desorption; effect of benzoyl peroxide addition |
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