Development of a purification strategy for the aqueous phase from biomass pyrolysis - recovery of valuable products
Kick C, Apfelbacher A, Daschner R, Hornung A (2021)
Publication Type: Conference contribution
Publication year: 2021
Publisher: ETA-Florence Renewable Energies
Pages Range: 808-810
Conference Proceedings Title: European Biomass Conference and Exhibition Proceedings
Abstract
The aqueous phase from biomass pyrolysis is until today mostly seen as worthless by-product and has to be costly disposed. However, it can be a valuable resource for the recovery of products. For this, the composition of the aqueous phase must be known and a suitable purification strategy, adjusted to the pyrolysis feedstock, has to be developed. The aim of this investigation is to introduce a multi-level purification strategy for the aqueous phase gained from the thermo-catalytic reforming of sewage sludge, which allows also the recovery of products. The purification strategy consists out of an electrooxidation step, the decarbonisation of the aqueous phase and the stripping of ammonia by air. By means of this, 44 l hydrogen, 69 g calcium carbonate and 264 g ammonium sulfate can be recovered from 1 l of the aqueous phase. In the medium term, purification strategies like this will lead to a reduction of the overall pyrolysis process costs and decrease the specific costs of targeted pyrolysis products like char, bio oil and syngas.
Authors with CRIS profile
Christopher Kick
Lehrstuhl für Hochtemperaturprozesstechnik
Andreas Hornung
Lehrstuhl für Hochtemperaturprozesstechnik
Involved external institutions
Germany (DE)How to cite
APA:
Kick, C., Apfelbacher, A., Daschner, R., & Hornung, A. (2021). Development of a purification strategy for the aqueous phase from biomass pyrolysis - recovery of valuable products. In P. Mauguin, N. Scarlat, A. Grassi (Eds.), European Biomass Conference and Exhibition Proceedings (pp. 808-810). ETA-Florence Renewable Energies.
MLA:
Kick, Christopher, et al. "Development of a purification strategy for the aqueous phase from biomass pyrolysis - recovery of valuable products." Proceedings of the 29th European Biomass Conference and Exhibition, EUBCE 2021 Ed. P. Mauguin, N. Scarlat, A. Grassi, ETA-Florence Renewable Energies, 2021. 808-810.
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