RT info:eu-repo/semantics/article T1 Biofiltration based on bioactive coatings for the abatement of indoor air VOCs A1 González Martín, Javier A1 Cantera Ruiz de Pellón, Sara A1 Lebrero Fernández, Raquel A1 Muñoz Torre, Raúl K1 Biofiltration K1 Indoor air quality K1 Biofiltración K1 Calidad del aire interior K1 23 Química AB Biotechnologies are a feasible alternative for indoor air pollutant abatement. Among biotechnologies, bioactive coatings consist of microorganisms embedded in polymeric matrices, allowing a direct contact between microorganisms and gas pollutants, thus enhancing their abatement. Three bioreactors (BR1, BR2 and BR3) were inoculated with a VOC-degrading enriched culture, a latex bioactive coating with the VOC-degrading enriched culture, and a latex bioactive coating with fresh activated sludge. The influence of empty bed residence time (EBRT) and inlet concentrations on the removal of toluene, α-pinene and n-hexane was assessed. BR1 and BR2 achieved steady-state toluene and pinene removals >90% down to 30 s. BR3 lower removals could be attributed to the lack of acclimation of activated sludge. When inlet concentrations were progressively reduced to <2 mg m−3 at 15 s of EBRT, toluene removals increased to >80% in BR1 and BR2, but only to 64.2% in BR3. Pinene removals reached 90.9% in BR1, and >70% in BR2 and BR3. The bacterial population was dominated by Rhodococcus, Mycobacterium, Devosia and Rhodobacteraceae members in BR1 and BR2. No significant and robust hexane removal was observed regardless of the inoculum or operational conditions, probably due to mass transfer limitations, which entailed a low dominance of organisms with this metabolic capability. PB Elsevier SN 2352-5541 YR 2023 FD 2023 LK https://uvadoc.uva.es/handle/10324/58484 UL https://uvadoc.uva.es/handle/10324/58484 LA eng NO Sustainable Chemistry and Pharmacy, Volume 31, 2023, 100960 NO Producción Científica DS UVaDOC RD 25-dic-2024