Peer Review: Design of Level Control in A 10 L Pure Capacitive Tank: Stability Analysis and Dynamic Simulation

Hermawan, Yulius Deddy and RENINGTYAS, Renung and Kholisoh, Siti Diyar and Setyoningrum, Tutik Muji Peer Review: Design of Level Control in A 10 L Pure Capacitive Tank: Stability Analysis and Dynamic Simulation. Jurusan Teknik Kimia, FT, UNDIP. (Unpublished)

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Abstract

The open loop experiment of a 10 L pure capacitive tank has been successfully done in laboratory. The square tank connected with a pump was designed for investigation in laboratory, and the water was chosen as a fluid with its input volumetric rate of fi(t) [cm3/min]. The output volumetric rate of fo(t) can be adjusted by changing the pump voltage of vpu(t) [volt]. The open loop experiment
has given the steady state parameters, and it could then be used for calculating the dynamic parameters. This study has proposed the level control configuration of a 10 L pure capacitive tank system; liquid level in the tank h(t) was kept constant by manipulating the pump voltage of vpu(t); and the input water volumetric rate of fi(t) was considered as a disturbance. The P-only-control was implemented to control the level. Purposes of this study are to analyze the stability of the closed loop responses and to do the closed loop dynamic simulation. The closed loop mathematical model was solved analytically with Laplace Transform, and Routh-Hurwitz criterion was chosen to analyze the stability. Since the closed loop model was found in the 2nd order system, the response depended on the value of the damping coefficient (ζ), in which it was really affected by the controller gain (Kc). In order to examine the control configuration, the input water volumetric rate disturbance (with amount of ±14%) was made based on step function. Based on the stability analysis, a stable response would be achieved if the controller gain is negative (Kc<0) and the damping coefficient is positive (ζ>0). Based on the dynamic simulation, the controller gain was recommended in between -117.36 [volt/cm] and -1.17 [volt/cm] and the damping coefficient in between 0 and 1. This study also revealed that by tuning an appropriate controller gain, the fastest and the stable response would be achieved.

Item Type: Other
Subjects: T Technology > T Technology (General)
Depositing User: Dr Y. Deddy Hermawan
Date Deposited: 19 Sep 2021 16:23
Last Modified: 30 May 2024 04:10
URI: http://eprints.upnyk.ac.id/id/eprint/26707

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