TY - GEN
T1 - Development Of PID Based On Genetic Algorithm As A Control Algorithm On A Three-Phase Mini Plant Separator Level Control System
AU - Suyanto,
AU - Darwito, Purwadi Agus
AU - Widjiantoro, Bambang Lelono
AU - Pradana, Dwiki Okvian
AU - Prananda, Sulthan Ariq
AU - Sudrajat, Sapto Wahyu
N1 - Publisher Copyright:
© 2022 IEEE.
PY - 2022
Y1 - 2022
N2 - The oil and gas industry is currentlyexperiencing difficulties in completely separating the mixtureof oil and water. This is due to the inability of the control system to continuously adapt to internal changes such as pressure increases, temperature increases, and changes in the internal level of the vessel, as well as the failure to overcome internal dynamics in the system, such as dead time. The limitations contained in conventional PID open up opportunities for development so that a control algorithm is obtained that can adapt to changes in the internal state that occur during the separation process. Genetic Algorithm PID has a suitable adaptability mechanism to overcome problems related to changes in the internal state during the process. Therefore, in this study, the PID Genetic Algorithm was used as an optimization controller parameter for the level control system in a three-phase separator mini plant. After The level control system based on PID parameter optimization usingPID Genetic Algorithm on a three-phase separator mini plant produces a better dynamic response than conventional PID. This is indicated by a decrease in maximum overshoot of 1%, then a decrease in settling time for 97,747 s, and then a decrease in the rise time of 17,427 s compared to conventional PID. At the same time, the PID genetic algorithm oil can show better results than conventional PID. This is indicated by a decrease in maximum overshoot of 1%, then a decrease insettling time for 21,402 s, and then a decrease in the rise time of 11.19 s comnared to conventional PID.
AB - The oil and gas industry is currentlyexperiencing difficulties in completely separating the mixtureof oil and water. This is due to the inability of the control system to continuously adapt to internal changes such as pressure increases, temperature increases, and changes in the internal level of the vessel, as well as the failure to overcome internal dynamics in the system, such as dead time. The limitations contained in conventional PID open up opportunities for development so that a control algorithm is obtained that can adapt to changes in the internal state that occur during the separation process. Genetic Algorithm PID has a suitable adaptability mechanism to overcome problems related to changes in the internal state during the process. Therefore, in this study, the PID Genetic Algorithm was used as an optimization controller parameter for the level control system in a three-phase separator mini plant. After The level control system based on PID parameter optimization usingPID Genetic Algorithm on a three-phase separator mini plant produces a better dynamic response than conventional PID. This is indicated by a decrease in maximum overshoot of 1%, then a decrease in settling time for 97,747 s, and then a decrease in the rise time of 17,427 s compared to conventional PID. At the same time, the PID genetic algorithm oil can show better results than conventional PID. This is indicated by a decrease in maximum overshoot of 1%, then a decrease insettling time for 21,402 s, and then a decrease in the rise time of 11.19 s comnared to conventional PID.
KW - Genetic Algorithm
KW - Genetic Algorithm PID
KW - PID
KW - Three Phase Mini Plant Separator
UR - http://www.scopus.com/inward/record.url?scp=85149178751&partnerID=8YFLogxK
U2 - 10.1109/ICOSNIKOM56551.2022.10034865
DO - 10.1109/ICOSNIKOM56551.2022.10034865
M3 - Conference contribution
AN - SCOPUS:85149178751
T3 - ICOSNIKOM 2022 - 2022 IEEE International Conference of Computer Science and Information Technology: Boundary Free: Preparing Indonesia for Metaverse Society
BT - ICOSNIKOM 2022 - 2022 IEEE International Conference of Computer Science and Information Technology
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 4th IEEE International Conference of Computer Science and Information Technology, ICOSNIKOM 2022
Y2 - 19 October 2022 through 21 October 2022
ER -