Co-Composting of Residual Fuel Contamination in Soil |
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Authors: | Turlough F. Guerin |
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Affiliation: | Shell Engineering Pty Ltd, NSW State Office, PO Box 26, Granville 2142 NSW, Australia. Email: turlough.guerin@bigpond.com |
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Abstract: | A remediation program was designed and implemented at a site in southeastern Australia that had become contaminated with nonvolatile, n-alkane total petroleum hydrocarbons (TPH). The remediation was conducted in two stages. The excavation, validation and reinstatement of two contaminated areas on the site was first conducted, followed by development of a composting treatment process. The total volume of contaminated soil (i. e., TPH concentration >1000?mg/kg C10?C36) was ~4300?m3 with a concentration of 3100±1270?mg/kg. The soil was stockpiled into four windrows, on a compacted, bunded clay base. Approximately 35% (v/v) of raw materials (green tree waste, cow manure, gypsum, and nutrients) were added to initiate composting. The piles were kept moist during the summer months, but no other maintenance was conducted. Once the composting process was initiated, the windrows were sampled at 2 and 6 months. After 6 months treatment, the average TPH concentration (C10?C36) was 730?mg/kg (with a 95% CI of 1020?mg/kg), which met the relevant clean fill criteria applicable to the site. There were no other contaminants of significance in the treated soil compost and it posed no unacceptable risk to human health or the environment, allowing it to be used as fill at the site. |
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Keywords: | bioremediation composting co-composting soil sludge contamination petroleum hydrocarbons endpoint phenol mesophilic field-scale case study |
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