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Modified fractional order <scp>PID</scp> structure for non‐integer model bioreactor control

Parmanand Maurya, Nilanjan Paul, Durga Prasad, R. S. Singh

2024The Canadian Journal of Chemical Engineering10 citationsDOIOpen Access PDF

Abstract

Abstract Temperature control for fermentation is crucial as it directly affects microorganism growth, productivity, and metabolic activity. This work proposes a modified fractional order proportional‐integral‐derivative (FOPID‐DF) controller that incorporates the system model in the control loop configuration utilizing a differential filter for precise temperature control within a narrow operating range. PID, fractional order PID (FOPID), modified fractional order PID (MFOPID), and fractional order internal model control (IMC) controllers were also designed for comparative analysis. The simulation results demonstrated that the proposed FOPID‐DF controller outperforms the other designed controllers, shown by a 22.33% reduction in integral absolute error (IAE) and a 29.06% decrease in integral square error (ISE) compared to the FOPID controller and various other improved performance indicators. Parameter variation and noise analysis highlighted the ability of the controller to maintain stability and performance under changing conditions. The simulation outcomes suggested that the FOPID‐DF controller excels in temperature control, ensuring optimal microorganism growth and metabolic activity.

Topics & Concepts

PID controllerControl theory (sociology)Controller (irrigation)Internal modelTemperature controlFractional calculusFilter (signal processing)MathematicsComputer scienceEngineeringControl engineeringControl (management)Applied mathematicsArtificial intelligenceAgronomyBiologyComputer visionAdvanced Control Systems DesignAdvanced Control Systems OptimizationExtremum Seeking Control Systems
Modified fractional order <scp>PID</scp> structure for non‐integer model bioreactor control | Litcius