In view of the potential use of pyrolysis-based technologies, it is crucial to understand the environmental hazards of pyrolysis-derived products, in particular bio-oils. Here, three bio-oils were produced from fast pyrolysis of pine wood and intermediate pyrolysis of corn stalk and poultry litter. They were fully characterized by chemical analysis and tested for their biodegradability and their ecotoxicity on the crustacean Daphnia magna and the green alga Raphidocelis subcapitata. These tests were chosen as required by the European REACH regulation. These three bio-oils were biodegradable, with 40-60% of biodegradation after 28 days, and had EC50 values above 100 mg L-1 for the crustacean and above 10 mg L-1 for the alga, showing low toxicity to the aquatic life. The toxic unit approach was applied to verify whether the observed toxicity could be predicted from the data available for the substances detected in the bio-oils. The predicted values largely underestimated the experimental values.
Campisi, T., Samorì, C., Torri, C., Barbera, G., Foschini, A., Kiwan, A., et al. (2016). Chemical and ecotoxicological properties of three bio-oils from pyrolysis of biomasses. ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY, 132, 87-93 [10.1016/j.ecoenv.2016.05.027].
Chemical and ecotoxicological properties of three bio-oils from pyrolysis of biomasses
CAMPISI, TIZIANA;SAMORI', CHIARA;TORRI, CRISTIAN;KIWAN, ALISAR;GALLETTI, PAOLA;TAGLIAVINI, EMILIO;PASTERIS, ANDREA
2016
Abstract
In view of the potential use of pyrolysis-based technologies, it is crucial to understand the environmental hazards of pyrolysis-derived products, in particular bio-oils. Here, three bio-oils were produced from fast pyrolysis of pine wood and intermediate pyrolysis of corn stalk and poultry litter. They were fully characterized by chemical analysis and tested for their biodegradability and their ecotoxicity on the crustacean Daphnia magna and the green alga Raphidocelis subcapitata. These tests were chosen as required by the European REACH regulation. These three bio-oils were biodegradable, with 40-60% of biodegradation after 28 days, and had EC50 values above 100 mg L-1 for the crustacean and above 10 mg L-1 for the alga, showing low toxicity to the aquatic life. The toxic unit approach was applied to verify whether the observed toxicity could be predicted from the data available for the substances detected in the bio-oils. The predicted values largely underestimated the experimental values.| File | Dimensione | Formato | |
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