Add to ORKGThis work presents a methodology which exploits the underlying biochemical structure of bioprocesses to estimate concentrations in aerobic fermenters from oxygen measurements. Although a number of estimators have been proposed over the years in the literature, the methodology proposed in this work is able to operate in transient conditions while does not require the knowledge of the growth kinetics. In addition, it can be also applied to fermenters where the spatial distribution of the concentrations is relevant. In this case, we propose a systematic approach to optimally locate the sensors based on the use of reduced order models. This method allows the reconstruction of the oxygen concentrations from a limited number of sensors. Fi...
In this paper, an approach to the estimation of multiple biomass growth rates and biomass concentrat...
In bioreactors, the measurement of variables that play a key role in the quality and productivity of...
Abstract. An approach for multiple biomass growth rates and biomass concentration estimation is prop...
This work presents a methodology which exploits the underlying biochemical structure of bioprocesses...
This work presents a methodology which exploits the underlying biochemical structure of bioprocesses...
This work presents a methodology which exploits the underlying biochemical structure of bioprocesses...
7 páginas, 6 figuras, 1 tablaIn this work, the dissipative nature of spatially distributed bioproces...
In this work, the dissipative nature of spatially distributed bioprocess systems is exploited to de...
In this work, the dissipative nature of spatially distributed bioprocess systems is exploited to de...
Estimation algorithms are presented for the estimation of the state of biochemical reactors from the...
In this work, the dissipative nature of spatially distributed bioprocess systems is exploited to de...
In this work, the dissipative nature of spatially distributed bioprocess systems is exploited to de...
Estimation algorithms are presented for the estimation of the state of biochemical reactors from the...
Abstract: In bioreactors, the measurement of variables that play a key role in the quality and produ...
Fermentation systems are often highly nonlinear, with poorly understood dynamic behaviour of the rea...
In this paper, an approach to the estimation of multiple biomass growth rates and biomass concentrat...
In bioreactors, the measurement of variables that play a key role in the quality and productivity of...
Abstract. An approach for multiple biomass growth rates and biomass concentration estimation is prop...
This work presents a methodology which exploits the underlying biochemical structure of bioprocesses...
This work presents a methodology which exploits the underlying biochemical structure of bioprocesses...
This work presents a methodology which exploits the underlying biochemical structure of bioprocesses...
7 páginas, 6 figuras, 1 tablaIn this work, the dissipative nature of spatially distributed bioproces...
In this work, the dissipative nature of spatially distributed bioprocess systems is exploited to de...
In this work, the dissipative nature of spatially distributed bioprocess systems is exploited to de...
Estimation algorithms are presented for the estimation of the state of biochemical reactors from the...
In this work, the dissipative nature of spatially distributed bioprocess systems is exploited to de...
In this work, the dissipative nature of spatially distributed bioprocess systems is exploited to de...
Estimation algorithms are presented for the estimation of the state of biochemical reactors from the...
Abstract: In bioreactors, the measurement of variables that play a key role in the quality and produ...
Fermentation systems are often highly nonlinear, with poorly understood dynamic behaviour of the rea...
In this paper, an approach to the estimation of multiple biomass growth rates and biomass concentrat...
In bioreactors, the measurement of variables that play a key role in the quality and productivity of...
Abstract. An approach for multiple biomass growth rates and biomass concentration estimation is prop...