yrolysis is a widely studied thermochemical process, however the disposal of the produced byproducts is an unexplored field. In particular, the acqueous phase, characterized by a high organic load (TOC), must be necessarily treated. Aims of this work is to study the potentiality of biochar as adsorbent material for the treatment of this wastewater. For this aim, pyrolysis wastewater and biochar produced in the same plant were used. Two biochars produced at different temperatures (550 and 750 °C) and an activated biochar produced by chemical activation with NaOH of the raw biomass were tested. The study shows that higher temperature in the biochar production leads to higher sorption capacity of the organic compounds due to an increase of the surface area. The activation process further increases the surface area of the biochar that becomes similar to that of a commercial activated carbon while the sorption capacity exceeds that of commercial activated carbon of 2.5 times.
Pyrolysis wastewater treatment by adsorption on biochars produced by poplar biomass / DE CAPRARIIS, BENEDETTA; DE FILIPPIS, Paolo; HERNANDEZ MIRANDA, ASBEL DAVID; PETRUCCI, Elisabetta; PETRULLO, ANTONIETTA; SCARSELLA, Marco; Turchi, Mattia. - In: JOURNAL OF ENVIRONMENTAL MANAGEMENT. - ISSN 0301-4797. - 197:(2017), pp. 231-238. [10.1016/j.jenvman.2017.04.007]
Pyrolysis wastewater treatment by adsorption on biochars produced by poplar biomass
DE CAPRARIIS, BENEDETTA;DE FILIPPIS, Paolo;HERNANDEZ MIRANDA, ASBEL DAVID;PETRUCCI, Elisabetta;PETRULLO, ANTONIETTA;SCARSELLA, Marco;
2017
Abstract
yrolysis is a widely studied thermochemical process, however the disposal of the produced byproducts is an unexplored field. In particular, the acqueous phase, characterized by a high organic load (TOC), must be necessarily treated. Aims of this work is to study the potentiality of biochar as adsorbent material for the treatment of this wastewater. For this aim, pyrolysis wastewater and biochar produced in the same plant were used. Two biochars produced at different temperatures (550 and 750 °C) and an activated biochar produced by chemical activation with NaOH of the raw biomass were tested. The study shows that higher temperature in the biochar production leads to higher sorption capacity of the organic compounds due to an increase of the surface area. The activation process further increases the surface area of the biochar that becomes similar to that of a commercial activated carbon while the sorption capacity exceeds that of commercial activated carbon of 2.5 times.File | Dimensione | Formato | |
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