Mathematical model with time‐delay and delayed controller for a bioreactor

In this paper, a fractional Lotka–Volterra mathematical model for a bioreactor is proposed and used to fit the data provided by a bioprocess known as continuous fermentation of Zymomonas mobilis. The model contemplates a time‐delay τ$$ \tau $$ due to the dead‐time (non‐trivial) that the microbe need...

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Veröffentlicht in:Mathematical methods in the applied sciences Jg. 46; H. 1; S. 248 - 266
Hauptverfasser: Villafuerte‐Segura, Raúl, Itzá‐Ortiz, Benjamín A., López‐Pérez, Pablo A., Alvarado‐Santos, Eduardo
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Freiburg Wiley Subscription Services, Inc 15.01.2023
Schlagworte:
bifurcation theory
Biomass
Bioreactors
Controllers
Delay
delay control/observation systems
Feedback control
Hopf bifurcation
Lotka–Volterra model
mathematical modeling or simulation for problems pertaining to biology
Mathematical models
Norton–Simons–Massagué model
Substrates
Zymomonas mobilis
ISSN:0170-4214, 1099-1476
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Abstract In this paper, a fractional Lotka–Volterra mathematical model for a bioreactor is proposed and used to fit the data provided by a bioprocess known as continuous fermentation of Zymomonas mobilis. The model contemplates a time‐delay τ$$ \tau $$ due to the dead‐time (non‐trivial) that the microbe needed to metabolize the substrate. A Hopf bifurcation analysis is performed to characterize the inherent self oscillatory experimental bioprocess response. As consequence, stability conditions for the equilibrium point together with conditions for limit cycles using the delay τ$$ \tau $$ as bifurcation parameter are obtained. Under the assumptions that the use of observers, estimators, or extra laboratory measurements are avoided to prevent the rise of computational or monetary costs, for the purpose of control, we will only consider the measurement of the biomass. A simple controller that can be employed is the proportional action controller u(t)=kpx(t)$$ u(t)={k}_px(t) $$, which is shown to fail to stabilize the obtained model under the proposed analysis. Another suitable choice is the use of a delayed controller u(t)=krx(t−h)$$ u(t)={k}_rx\left(t-h\right) $$ which successfully stabilizes the model even when it is unstable. The delay h$$ h $$ in the feedback control is due to the dead‐time necessary to obtain the measurement of the biomass in the bioreactor by dry weight. Finally, the proposed theoretical results are corroborated through numerical simulations.
AbstractList In this paper, a fractional Lotka–Volterra mathematical model for a bioreactor is proposed and used to fit the data provided by a bioprocess known as continuous fermentation of Zymomonas mobilis. The model contemplates a time‐delay τ$$ \tau $$ due to the dead‐time (non‐trivial) that the microbe needed to metabolize the substrate. A Hopf bifurcation analysis is performed to characterize the inherent self oscillatory experimental bioprocess response. As consequence, stability conditions for the equilibrium point together with conditions for limit cycles using the delay τ$$ \tau $$ as bifurcation parameter are obtained. Under the assumptions that the use of observers, estimators, or extra laboratory measurements are avoided to prevent the rise of computational or monetary costs, for the purpose of control, we will only consider the measurement of the biomass. A simple controller that can be employed is the proportional action controller u(t)=kpx(t)$$ u(t)={k}_px(t) $$, which is shown to fail to stabilize the obtained model under the proposed analysis. Another suitable choice is the use of a delayed controller u(t)=krx(t−h)$$ u(t)={k}_rx\left(t-h\right) $$ which successfully stabilizes the model even when it is unstable. The delay h$$ h $$ in the feedback control is due to the dead‐time necessary to obtain the measurement of the biomass in the bioreactor by dry weight. Finally, the proposed theoretical results are corroborated through numerical simulations.
In this paper, a fractional Lotka–Volterra mathematical model for a bioreactor is proposed and used to fit the data provided by a bioprocess known as continuous fermentation of Zymomonas mobilis. The model contemplates a time‐delay τ$$ \tau $$ due to the dead‐time (non‐trivial) that the microbe needed to metabolize the substrate. A Hopf bifurcation analysis is performed to characterize the inherent self oscillatory experimental bioprocess response. As consequence, stability conditions for the equilibrium point together with conditions for limit cycles using the delay τ$$ \tau $$ as bifurcation parameter are obtained. Under the assumptions that the use of observers, estimators, or extra laboratory measurements are avoided to prevent the rise of computational or monetary costs, for the purpose of control, we will only consider the measurement of the biomass. A simple controller that can be employed is the proportional action controller u(t)=kpx(t)$$ u(t)={k}_px(t) $$, which is shown to fail to stabilize the obtained model under the proposed analysis. Another suitable choice is the use of a delayed controller u(t)=krx(t−h)$$ u(t)={k}_rx\left(t-h\right) $$ which successfully stabilizes the model even when it is unstable. The delay h$$ h $$ in the feedback control is due to the dead‐time necessary to obtain the measurement of the biomass in the bioreactor by dry weight. Finally, the proposed theoretical results are corroborated through numerical simulations.
In this paper, a fractional Lotka–Volterra mathematical model for a bioreactor is proposed and used to fit the data provided by a bioprocess known as continuous fermentation of Zymomonas mobilis . The model contemplates a time‐delay due to the dead‐time (non‐trivial) that the microbe needed to metabolize the substrate. A Hopf bifurcation analysis is performed to characterize the inherent self oscillatory experimental bioprocess response. As consequence, stability conditions for the equilibrium point together with conditions for limit cycles using the delay as bifurcation parameter are obtained. Under the assumptions that the use of observers, estimators, or extra laboratory measurements are avoided to prevent the rise of computational or monetary costs, for the purpose of control, we will only consider the measurement of the biomass. A simple controller that can be employed is the proportional action controller , which is shown to fail to stabilize the obtained model under the proposed analysis. Another suitable choice is the use of a delayed controller which successfully stabilizes the model even when it is unstable. The delay in the feedback control is due to the dead‐time necessary to obtain the measurement of the biomass in the bioreactor by dry weight. Finally, the proposed theoretical results are corroborated through numerical simulations.
Author Itzá‐Ortiz, Benjamín A.
Villafuerte‐Segura, Raúl
Alvarado‐Santos, Eduardo
López‐Pérez, Pablo A.
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  givenname: Pablo A.
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  surname: Alvarado‐Santos
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Snippet In this paper, a fractional Lotka–Volterra mathematical model for a bioreactor is proposed and used to fit the data provided by a bioprocess known as...
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StartPage 248
SubjectTerms bifurcation theory
Biomass
Bioreactors
Controllers
Delay
delay control/observation systems
Feedback control
Hopf bifurcation
Lotka–Volterra model
mathematical modeling or simulation for problems pertaining to biology
Mathematical models
Norton–Simons–Massagué model
Substrates
Zymomonas mobilis
Title Mathematical model with time‐delay and delayed controller for a bioreactor
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fmma.8508
https://www.proquest.com/docview/2754435471
Volume 46
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