Biodegradation of n-eicosane and VOCs: Cometabolism in a marine consortium

Sergio O. Flores; Omar Ríos-Bern; Tomás A. Fregoso Aguilar; Rafael Herrera Bucio; Icoquih Zapata Peñasco; Jorge Alberto Mendoza Pérez

Ayuda

Biodegradation of n-eicosane and VOCs: Cometabolism in a marine consortium

Flores Valle , Sergio Odín ^[1] ; Ríos Berny , Omar ^[1] ; Fregoso Aguilar , Tomas A. ; Herrera Bucio , Rafael ^[1] ; Zapata Peñasco, Icoquih ^[2] ; Mendoza Pérez , Jorge Alberto ^[1]
1. [1] Instituto Politécnico Nacional
  
  Instituto Politécnico Nacional
  
  México
2. [2] Instituto Mexicano del Petróleo
  
  Instituto Mexicano del Petróleo
  
  México
Localización: Química Hoy, ISSN-e 2007-1183, Vol. 3, Núm 1, 2013 (Ejemplar dedicado a: Enero-Marzo 2013), págs. 26-31
Idioma: español
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Resumen
- Several batch scale assays were performed in order to establish a correlation between the microbial removals of neicosane, in presence of different concentrations of volatile organic compounds (VOCs) which showed a partial removing.The selected VOCs were toluene and benzene. Results with benzene showed that the removal of this aromatic compoundwas decreased in presence of n-eicosane and the lowest removal was obtained when VOC concentration was higher. Theremoval of hydrocarbon was increased when VOC concentration was increased. In the assays with toluene, n-eicosanereached a higher removal when VOC concentration was increased, but the aromatic compound showed a decrease in itselimination dynamics. Control assays performed with VOCs at 28 mg/L without hydrocarbon showed higher removaldynamics for benzene than toluene. Also control assays of n-eicosane at two different concentrations but without anyVOC showed that its removal dynamic decreased in the absence of the aromatic compounds for both assays. The kineticadjustrnent obtained for toluene (Hill kinetic model) showed that the removal rate of this compound increased while itsconcentration at water-phase was higher. Although, when it was used a concentration of 50 mg/L or higher, the removalrate became almost constant. For benzene, the higher removal rate was reached with 38 mg/L. With higher concentration,the kinetic model showed inhibition, so the adjustrnent analyses fitted for a Monod kinetic model. n-Eicosane showed abetter adjustrnent with the Haldane kinetic model with an initial concentration of 188 mg/L for the highest removal rate.