This is the first-time reporting on the photocatalytic production of hydrogen gas (H2) via water splitting in the presence of swine sewage (SS) as sacrificial agent. H2 was evolved upon both UV-A and solar light irradiation in presence of platinised titania as the catalyst. The influences of irradiation time, catalyst amount, pH and SS concentration on the reaction yield were investigated. Under the best conditions, up to 50 mmol of H2 were produced from aqueous SS (1.7% v/v, COD 82 mg L1), with good within-laboratory reproducibility (RSD <3%, n ¼ 3). The batch-to-batch reproducibility was verified, too. Despite the complexity of the matrix, the amount of evolved H2 was about a half of that obtained by use of model sacrificial agents as glucose, sucrose and glycerol, known to be excellent electrondonors. The catalyst, recovered after irradiation, was regenerated by mere washing with acidic water and conserved part of the activity for reusing for at least 3 runs. The proposed procedure is at low environmental impact, does not release carbon dioxide and proceeds also under solar light with reaction yields up to 94% compared to those observed under UV-A radiation. This explorative study demonstrates that a waste such as SS is a rewarding and inexpensive feedstock to produce a high-value chemical as hydrogen gas. The results suggest that further work should be addresses in this direction.

Swine sewage as sacrificial biomass for photocatalytic hydrogen gas production: explorative study

SPELTINI, ANDREA;STURINI, MICHELA;MARASCHI, FEDERICA;DONDI, DANIELE;PROFUMO, ANTONELLA;BUTTAFAVA, ARMANDO;ALBINI, ANGELO
2014-01-01

Abstract

This is the first-time reporting on the photocatalytic production of hydrogen gas (H2) via water splitting in the presence of swine sewage (SS) as sacrificial agent. H2 was evolved upon both UV-A and solar light irradiation in presence of platinised titania as the catalyst. The influences of irradiation time, catalyst amount, pH and SS concentration on the reaction yield were investigated. Under the best conditions, up to 50 mmol of H2 were produced from aqueous SS (1.7% v/v, COD 82 mg L1), with good within-laboratory reproducibility (RSD <3%, n ¼ 3). The batch-to-batch reproducibility was verified, too. Despite the complexity of the matrix, the amount of evolved H2 was about a half of that obtained by use of model sacrificial agents as glucose, sucrose and glycerol, known to be excellent electrondonors. The catalyst, recovered after irradiation, was regenerated by mere washing with acidic water and conserved part of the activity for reusing for at least 3 runs. The proposed procedure is at low environmental impact, does not release carbon dioxide and proceeds also under solar light with reaction yields up to 94% compared to those observed under UV-A radiation. This explorative study demonstrates that a waste such as SS is a rewarding and inexpensive feedstock to produce a high-value chemical as hydrogen gas. The results suggest that further work should be addresses in this direction.
File in questo prodotto:
Non ci sono file associati a questo prodotto.

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11571/981661
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 41
  • ???jsp.display-item.citation.isi??? 38
social impact