A coupled model of biological and settling phases aimed at optimal design of pre-denitrification systems is presented. Each unknown is obtained in explicit form, and is expressed as a function of the system's required performance. A model taking into account both suspended and dissolved substrates is adopted for the biological phase, while the limiting solid flux theory is assumed for the design of the settling phase. Finally a relationship correlating the two phases is obtained expressing opportunely the sludge recycle flow and the sludge waste flow, without recourse to empirical parameters. The effect of different influent/effluent wastewater characteristics on the model's results is also analysed.
Coupled Design Model of Predenitrification Systems / Fabbricino, Massimiliano; Pirozzi, Francesco. - In: ENVIRONMENTAL TECHNOLOGY. - ISSN 0959-3330. - 26:7(2005), pp. 783-791. [10.1080/09593332608618510]
Coupled Design Model of Predenitrification Systems
FABBRICINO, MASSIMILIANO;PIROZZI, FRANCESCO
2005
Abstract
A coupled model of biological and settling phases aimed at optimal design of pre-denitrification systems is presented. Each unknown is obtained in explicit form, and is expressed as a function of the system's required performance. A model taking into account both suspended and dissolved substrates is adopted for the biological phase, while the limiting solid flux theory is assumed for the design of the settling phase. Finally a relationship correlating the two phases is obtained expressing opportunely the sludge recycle flow and the sludge waste flow, without recourse to empirical parameters. The effect of different influent/effluent wastewater characteristics on the model's results is also analysed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
