0000000000811586

AUTHOR

Francesca Di Pippo

showing 2 related works from this author

Comparison between kinetics of autochthonous marine bacteria in activated sludge and granular sludge systems at different salinity and SRTs.

2019

Biological nutrient removal performances and kinetics of autochthonous marine biomass in forms of activated sludge and aerobic granular sludge were investigated under different salinity and sludge retention time (SRT). Both the biomasses, cultivated from a fish-canning wastewater, were subjected to stepwise increases in salinity (+2 gNaCl L−1), from 30 gNaCl L−1 up to 50 gNaCl L−1 with the aim to evaluate the maximum potential in withstanding salinity by the autochthonous marine biomass. Microbial marine species belonging to the genus of Cryomorphaceae and of Rhodobacteraceae were found dominant in both the systems at the maximum salinity tested (50 gNaCl L−1). The organic carbon was remove…

SalinityEnvironmental EngineeringAutochthonous-halophilic bacteriaNitrogen0208 environmental biotechnologyBiomass02 engineering and technology010501 environmental sciences01 natural sciencesDenitrifying bacteriachemistry.chemical_compoundNutrientMarine bacteriophageBioreactorsActivated sludge Aerobic granular sludge Autochthonous-halophilic bacteria Shortcut nitrification Saline wastewaterAmmoniumWaste Management and Disposal0105 earth and related environmental sciencesWater Science and TechnologyCivil and Structural EngineeringSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleBacteriaSewageEcological ModelingPollution020801 environmental engineeringSalinityKineticsActivated sludgechemistryWastewaterActivated sludgeAerobic granular sludgeEnvironmental chemistrySaline wastewaterShortcut nitrificationWater research
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An innovative respirometric method to assess the autotrophic active fraction: Application to an alternate oxic-anoxic MBR pilot plant

2016

An innovative respirometric method was applied to evaluate the autotrophic active fraction in an alternate anoxic/oxic membrane bioreactor (MBR) pilot plant. The alternate cycle (AC) produces a complex microbiological environment that allows the development of both autotrophic and heterotrophic species in one reactor. The present study aimed to evaluate autotrophic and heterotrophic active fractions and highlight the effect of different aeration/non aeration ratios in a AC-MBR pilot plant using respirometry. The results outlined that the autotrophic active fraction values were consistent with the nitrification efficiency and FISH analyses, which suggests its usefulness for estimating the ni…

General Chemical Engineering0208 environmental biotechnologyPopulationHeterotrophBiomassMBR systems02 engineering and technology010501 environmental sciencesMembrane bioreactor01 natural sciencesIndustrial and Manufacturing EngineeringRespirometryEnvironmental ChemistryChemical Engineering (all)Autotrophic active fractioneducation0105 earth and related environmental sciencesMBR systemeducation.field_of_studySettore ICAR/03 - Ingegneria Sanitaria-AmbientaleChemistry (all)Environmental engineeringGeneral ChemistryRespirometryAnoxic watersAutotrophic active fraction; Biokinetic coefficients; Intermittent aeration; MBR systems; Respirometry; Chemistry (all); Environmental Chemistry; Chemical Engineering (all); Industrial and Manufacturing Engineering020801 environmental engineeringBiokinetic coefficientIntermittent aerationEnvironmental chemistryEnvironmental scienceNitrificationAerationBiokinetic coefficients
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