Microorganism kinetic growth characterized by substrate inhibition was investigated by means of a continuous stirred tank reactor equipped with a feedback controller of the medium feeding flow rate. The aerobic growth of Pseudomonas sp. OX1 with phenol as carbon/energy source was adopted as a case study to test a new control strategy using dissolved oxygen concentration as a state variable. The controller was successful in steadily operating bioconversion under intrinsically unstable conditions. A simple model of the controlled system was proposed to set the feedback controller. The specific growth rate of P. sp. OX1 was successfully described by means of the Haldane model. The regression of the experimental data yielded MP=0.26 hP-1P, KBPhB=5∙10-3 g/L and KBIB=0.2 g/L. The biomass-to-substrate fractional yield as a function of the specific growth rate did not change moving from substrate-inhibited to substrate-deficient state. The data was modelled according to the Pirt model: m=1.7∙10-2 g/(g·h), YBX/PhPBThP=1.3 g/g. The specific growth rates calculated for batch and continuous growth were compared.
Unstable steady state operations of substrate inhibited cultures by dissolved oxygen control / Olivieri, Giuseppe; Russo, MARIA ELENA; DI DONATO, Alberto; Marzocchella, Antonio; Salatino, Piero. - In: JOURNAL OF BIOTECHNOLOGY. - ISSN 0168-1656. - 156:4(2010), pp. 302-308. [10.1016/j.jbiotec.2011.09.008]
Unstable steady state operations of substrate inhibited cultures by dissolved oxygen control
OLIVIERI, GIUSEPPE;RUSSO, MARIA ELENA;DI DONATO, ALBERTO;MARZOCCHELLA, ANTONIO;SALATINO, PIERO
2010
Abstract
Microorganism kinetic growth characterized by substrate inhibition was investigated by means of a continuous stirred tank reactor equipped with a feedback controller of the medium feeding flow rate. The aerobic growth of Pseudomonas sp. OX1 with phenol as carbon/energy source was adopted as a case study to test a new control strategy using dissolved oxygen concentration as a state variable. The controller was successful in steadily operating bioconversion under intrinsically unstable conditions. A simple model of the controlled system was proposed to set the feedback controller. The specific growth rate of P. sp. OX1 was successfully described by means of the Haldane model. The regression of the experimental data yielded MP=0.26 hP-1P, KBPhB=5∙10-3 g/L and KBIB=0.2 g/L. The biomass-to-substrate fractional yield as a function of the specific growth rate did not change moving from substrate-inhibited to substrate-deficient state. The data was modelled according to the Pirt model: m=1.7∙10-2 g/(g·h), YBX/PhPBThP=1.3 g/g. The specific growth rates calculated for batch and continuous growth were compared.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
