Coupling dissolved oxygen microsensors measurements and heterogeneous respirometry for monitoring and modeling microbial activity within sulfide-oxidizing biofilms

A heterogeneous respirometer (HR) was coupled for the first time to a microelectrode monitoring system specifically designed for dissolved oxygen (DO) measuring within the biofilm. Monitoring of the oxygen concentration in the gas and liquid phases was complemented with pioneer monitoring of DO perf...

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Detalhes bibliográficos
Autores: Guimerà Villalba, Xavier|||0000-0002-4156-2988, Mora Garrido, Mabel|||0000-0002-2979-3601, Lopez de Leon, Luis Rafael|||0000-0003-0795-2357, Gabriel, Gemma|||0000-0003-2140-6299, Dorado, Antonio David|||0000-0003-0238-5867, Lafuente Sancho, Francisco Javier|||0000-0002-4601-9001, Gamisans Noguera, Xavier|||0000-0003-1856-8692, Gabriel, David|||0000-0002-7713-4192
Tipo de documento: artigo
Data de publicação:2020
País:España
Recursos:Universitat Autònoma de Barcelona
Repositório:Dipòsit Digital de Documents de la UAB
Idioma:inglês
OAI Identifier:oai:ddd.uab.cat:266979
Acesso em linha:https://ddd.uab.cat/record/266979
https://dx.doi.org/urn:doi:10.1016/j.cej.2020.125846
Access Level:Acceso aberto
Palavra-chave:Biofilm profiling
Dissolved oxygen microsensors
Heterogeneous respirometry
Multiphase reactor modeling
Sulfide-oxidizing biofilm
Oxidation
Kinetic-parameters
Air
Bacterial
Communities
Mass-transport
Removal
Dynamics
Difusion
Water
Descrição
Resumo:A heterogeneous respirometer (HR) was coupled for the first time to a microelectrode monitoring system specifically designed for dissolved oxygen (DO) measuring within the biofilm. Monitoring of the oxygen concentration in the gas and liquid phases was complemented with pioneer monitoring of DO performed simultaneously and continuously at multiple biofilm depths in a linear array of eleven gold-disk electrodes of 50 µm-diameter. A set of respirometric tests performed at neutral pH and with initial gas phase concentrations of H2S ranging from 135 to 6720 ppmv were used to assess sulfide-oxidizing activity of a biofilm grown on 15.9 mm plastic Pall rings withdrawn from a biogas desulfurizing biotrickling filter. A mechanistic model for the description of multi-step sulfide oxidation within a biotrickling filter was improved considering heterogeneous biomass concentration and biomass activity distribution along the biofilm depth. A comprehensive description of physical, chemical and biological phenomena occurring throughout gas, liquid and biofilm phases resulted in an accurate prediction of system behavior. Model calibration using experimental data estimated a biomass concentration from 320.5 to 443.0 g VSS·L-1 as well as a decrease in the fraction of active biomass of 0.5, over the 600 µm thick biofilm. Model simulations accurately reproduced experimental respirometric profiles (NRMSE <10%), demonstrating that coupling HR and microelectrodes improved model predictions in comparison to sole gas or liquid phase measurements, thus contributing to a deeper knowledge of biofilms performance in trickled bed biological systems.