Abstract:
This work discusses the optimization of the biopolymer PHAs production by Ralstonia eutropha, in a bioreactor carried out under fed-batch mode. Although the optimization of fed-batch fermentations involves the manipulation of the substrate feed rate, which generates a singular optimal control problem, the optimal trajectory can be also set by adjusting small segments by non-linear programming. The cybernetic structured mathematical model used here in is described by a system of 12 differential equations; the strategy involves the maximization/minimization of an Objective Function considering the model as a set of implicit constraints and the discretization of the manipulated variables (substrate feed rates). The sequential quadratic program method is used to solve the optimization problem. PHAs productivity is taken as the objective function and its results are compared to those documented in the literature.
Reference:
PICCOLO, Rosane Moniz; QUIROZ, Luís Henrique Camargo; FLEURY, Agenor de Toledo; OLIVEIRA, Valter; MARTELETO, Natália Bonifácio; BONOMI, Antonio. Optimization of polyhydroxyalkanoates bioproduction, based on a cybernetic mathematical model. Brazilian Journal of Chemical Engineering, 10 p., Jul., 2020.
Access to the article on the Journal’s website:
https://link.springer.com/article/10.1007/s43153-020-00047-5
This work discusses the optimization of the biopolymer PHAs production by Ralstonia eutropha, in a bioreactor carried out under fed-batch mode. Although the optimization of fed-batch fermentations involves the manipulation of the substrate feed rate, which generates a singular optimal control problem, the optimal trajectory can be also set by adjusting small segments by non-linear programming. The cybernetic structured mathematical model used here in is described by a system of 12 differential equations; the strategy involves the maximization/minimization of an Objective Function considering the model as a set of implicit constraints and the discretization of the manipulated variables (substrate feed rates). The sequential quadratic program method is used to solve the optimization problem. PHAs productivity is taken as the objective function and its results are compared to those documented in the literature.
Reference:
PICCOLO, Rosane Moniz; QUIROZ, Luís Henrique Camargo; FLEURY, Agenor de Toledo; OLIVEIRA, Valter; MARTELETO, Natália Bonifácio; BONOMI, Antonio. Optimization of polyhydroxyalkanoates bioproduction, based on a cybernetic mathematical model. Brazilian Journal of Chemical Engineering, 10 p., Jul., 2020.
Access to the article on the Journal’s website:
https://link.springer.com/article/10.1007/s43153-020-00047-5
