The selection of optimal feeding profiles for particular fermentations till now is not enough universally solved problem. Due to this, automatic fed-batch is a challenge for biotechnologists. In fed-batch cultivation processes, time profiles of substrate feeding rates are usually defined before the process. In such a case, operator must follow the process analyzing limiting carbon source (glucose, saccharose, etc.) and biomass concentrations, and according to this analysis, manually correct feeding rate profiles. It means that the performance of such processes depends on the operator’s qualification and experience. To avoid this obstacle, it is necessary to automatically ensure the correction of feeding rate profiles. The goal of present wo...
© 2018 In this work, a model predictive control of a fed-batch bioreactor is presented, described by...
Accurate control of the specific growth rate (µ) of microorganisms is dependent on the ability to qu...
Accurate control of the specific growth rate (µ) of microorganisms is dependent on the ability to qu...
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2005Fennentation i...
bio)c trol s Next, it is illustrated how the obtained optimal profiles can be exploited in the chara...
A developed solution for fed-batch process modeling and model predictive control (MPC), facilitating...
The optimization problem for fed-batch fermentation is formulated in a framework which allows compar...
A new strategy for controlling substrate feed in the exponential growth phase of aerated fed-batch f...
This paper presents a unifying methodology for optimization of biotechnological processes, namely op...
Submitted in fulfillment ofthe requirement for Masters degree oftechnology (Mtech): Electrical engi...
IIIA.5.1-IIIA.5.6 (puslapių numeracija publikacijoje)Bioreactors with fed-batch cultivation technolo...
A systematic approach to cycle-to-cycle optimization of fed-batch cultures for determining the optim...
In this paper we present a growth rate controller for a fed-batch bioprocess. An observer estimates ...
In this paper we present a growth rate controller for a fed-batch bioprocess. An observer estimates ...
Optimisation of a fed-batch fermentation process typically uses the calculus of variations or Pontry...
© 2018 In this work, a model predictive control of a fed-batch bioreactor is presented, described by...
Accurate control of the specific growth rate (µ) of microorganisms is dependent on the ability to qu...
Accurate control of the specific growth rate (µ) of microorganisms is dependent on the ability to qu...
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2005Fennentation i...
bio)c trol s Next, it is illustrated how the obtained optimal profiles can be exploited in the chara...
A developed solution for fed-batch process modeling and model predictive control (MPC), facilitating...
The optimization problem for fed-batch fermentation is formulated in a framework which allows compar...
A new strategy for controlling substrate feed in the exponential growth phase of aerated fed-batch f...
This paper presents a unifying methodology for optimization of biotechnological processes, namely op...
Submitted in fulfillment ofthe requirement for Masters degree oftechnology (Mtech): Electrical engi...
IIIA.5.1-IIIA.5.6 (puslapių numeracija publikacijoje)Bioreactors with fed-batch cultivation technolo...
A systematic approach to cycle-to-cycle optimization of fed-batch cultures for determining the optim...
In this paper we present a growth rate controller for a fed-batch bioprocess. An observer estimates ...
In this paper we present a growth rate controller for a fed-batch bioprocess. An observer estimates ...
Optimisation of a fed-batch fermentation process typically uses the calculus of variations or Pontry...
© 2018 In this work, a model predictive control of a fed-batch bioreactor is presented, described by...
Accurate control of the specific growth rate (µ) of microorganisms is dependent on the ability to qu...
Accurate control of the specific growth rate (µ) of microorganisms is dependent on the ability to qu...