Two degree of freedom PID based inferential control of continuous bioreactor for ethanol production

Nikhil Pachauri; Vijander Singh; Asha Rani

doi:10.1016/j.isatra.2017.03.014

Two degree of freedom PID based inferential control of continuous bioreactor for ethanol production

Nikhil Pachauri^*
, Vijander Singh
, Asha Rani

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

62 Citations (Scopus)

Abstract

This article presents the development of inferential control scheme based on Adaptive linear neural network (ADALINE) soft sensor for the control of fermentation process. The ethanol concentration of bioreactor is estimated from temperature profile of the process using soft sensor. The prediction accuracy of ADALINE is enhanced by retraining it with immediate past measurements. The ADALINE and retrained ADALINE are used along with PID and 2-DOF-PID leading to APID, A2PID, RAPID and RA2PID inferential controllers. Further the parameters of 2-DOF-PID are optimized using Non-dominated sorted genetic algorithm-II and used with retrained ADALINE soft sensor which leads to RAN2PID inferential controller. Simulation results demonstrate that performance of proposed RAN2PID controller is better in comparison to other designed controllers in terms of qualitative and quantitative performance indices.

Original language	English
Pages (from-to)	235-250
Number of pages	16
Journal	ISA Transactions
Volume	68
DOIs	https://doi.org/10.1016/j.isatra.2017.03.014
Publication status	Published - 05-2017

All Science Journal Classification (ASJC) codes

Control and Systems Engineering
Instrumentation
Computer Science Applications
Electrical and Electronic Engineering
Applied Mathematics

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10.1016/j.isatra.2017.03.014

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title = "Two degree of freedom PID based inferential control of continuous bioreactor for ethanol production",

abstract = "This article presents the development of inferential control scheme based on Adaptive linear neural network (ADALINE) soft sensor for the control of fermentation process. The ethanol concentration of bioreactor is estimated from temperature profile of the process using soft sensor. The prediction accuracy of ADALINE is enhanced by retraining it with immediate past measurements. The ADALINE and retrained ADALINE are used along with PID and 2-DOF-PID leading to APID, A2PID, RAPID and RA2PID inferential controllers. Further the parameters of 2-DOF-PID are optimized using Non-dominated sorted genetic algorithm-II and used with retrained ADALINE soft sensor which leads to RAN2PID inferential controller. Simulation results demonstrate that performance of proposed RAN2PID controller is better in comparison to other designed controllers in terms of qualitative and quantitative performance indices.",

author = "Nikhil Pachauri and Vijander Singh and Asha Rani",

note = "Publisher Copyright: {\textcopyright} 2017 ISA",

year = "2017",

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doi = "10.1016/j.isatra.2017.03.014",

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T1 - Two degree of freedom PID based inferential control of continuous bioreactor for ethanol production

AU - Pachauri, Nikhil

AU - Singh, Vijander

AU - Rani, Asha

PY - 2017/5

Y1 - 2017/5

N2 - This article presents the development of inferential control scheme based on Adaptive linear neural network (ADALINE) soft sensor for the control of fermentation process. The ethanol concentration of bioreactor is estimated from temperature profile of the process using soft sensor. The prediction accuracy of ADALINE is enhanced by retraining it with immediate past measurements. The ADALINE and retrained ADALINE are used along with PID and 2-DOF-PID leading to APID, A2PID, RAPID and RA2PID inferential controllers. Further the parameters of 2-DOF-PID are optimized using Non-dominated sorted genetic algorithm-II and used with retrained ADALINE soft sensor which leads to RAN2PID inferential controller. Simulation results demonstrate that performance of proposed RAN2PID controller is better in comparison to other designed controllers in terms of qualitative and quantitative performance indices.

AB - This article presents the development of inferential control scheme based on Adaptive linear neural network (ADALINE) soft sensor for the control of fermentation process. The ethanol concentration of bioreactor is estimated from temperature profile of the process using soft sensor. The prediction accuracy of ADALINE is enhanced by retraining it with immediate past measurements. The ADALINE and retrained ADALINE are used along with PID and 2-DOF-PID leading to APID, A2PID, RAPID and RA2PID inferential controllers. Further the parameters of 2-DOF-PID are optimized using Non-dominated sorted genetic algorithm-II and used with retrained ADALINE soft sensor which leads to RAN2PID inferential controller. Simulation results demonstrate that performance of proposed RAN2PID controller is better in comparison to other designed controllers in terms of qualitative and quantitative performance indices.

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JO - ISA Transactions

JF - ISA Transactions

ER -

Two degree of freedom PID based inferential control of continuous bioreactor for ethanol production

Abstract

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