Based on a nonlinear model, this article realizes an investigation of dynamic behaviour of a batch fermentation process using direct sensitivity analysis (DSA). The used nonlinear mathematical model has a good qualitative and quantitative description of the alcoholic fermentation process. This model has been discussed and validated by authors in other studies. The DSA of dynamic model was used to calculate the matrix of the sensitivity functions in order to determine the influence of the small deviations of initial state, control inputs, and parameters from the ideal nominal values on the state trajectory and system output in time. Process optimization and advanced control strategies can be developed based on this work
Submitted in fulfillment ofthe requirement for Masters degree oftechnology (Mtech): Electrical engi...
Bibliography: pages 101-105.Fermentation processes are highly nonlinear and subject to variability. ...
The formulation of three nonlinear control laws is presented for the control of ethanol concentratio...
Based on a nonlinear model, this article realizes an investigation of dynamic behaviour of a batch f...
Modeling and control of fed-batch fermentation processes has been a subject of great interest to rea...
A theoretical and experimental study is reported concerning the control of baker's yeast fed-batch ...
Fermentation process of Saccharomyces cerevisiae has been investigated by many researchers for highe...
A novel algorithm for solving nonlinear discrete time optimal control problems with model-reality di...
A good tactic of monitoring and control of the fermentative process can contribute to the developme...
A simple nonlinear robust regulator is applied to track a singular optimal reference signal derived ...
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2005Fennentation i...
In this work a fuzzy identification model for yeast growth applied to the specific case of alcoholic...
Abstract Background A mathematical model to understand, predict, control, or even design a real biol...
Control of fermentation processes is a complex problem due to the inherent non-lineanties and time v...
This work describes an application of maximum likelihood identification and statistical detection te...
Submitted in fulfillment ofthe requirement for Masters degree oftechnology (Mtech): Electrical engi...
Bibliography: pages 101-105.Fermentation processes are highly nonlinear and subject to variability. ...
The formulation of three nonlinear control laws is presented for the control of ethanol concentratio...
Based on a nonlinear model, this article realizes an investigation of dynamic behaviour of a batch f...
Modeling and control of fed-batch fermentation processes has been a subject of great interest to rea...
A theoretical and experimental study is reported concerning the control of baker's yeast fed-batch ...
Fermentation process of Saccharomyces cerevisiae has been investigated by many researchers for highe...
A novel algorithm for solving nonlinear discrete time optimal control problems with model-reality di...
A good tactic of monitoring and control of the fermentative process can contribute to the developme...
A simple nonlinear robust regulator is applied to track a singular optimal reference signal derived ...
Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2005Fennentation i...
In this work a fuzzy identification model for yeast growth applied to the specific case of alcoholic...
Abstract Background A mathematical model to understand, predict, control, or even design a real biol...
Control of fermentation processes is a complex problem due to the inherent non-lineanties and time v...
This work describes an application of maximum likelihood identification and statistical detection te...
Submitted in fulfillment ofthe requirement for Masters degree oftechnology (Mtech): Electrical engi...
Bibliography: pages 101-105.Fermentation processes are highly nonlinear and subject to variability. ...
The formulation of three nonlinear control laws is presented for the control of ethanol concentratio...