Parameter identification of a Coupled Tank Liquid (CTS) level system

Aziz, Mohammad Muzaffar (2021) Parameter identification of a Coupled Tank Liquid (CTS) level system. Project Report. Universiti Teknikal Malaysia Melaka, Melaka, Malaysia. (Submitted)

	Text (24 Pages) Parameter identification of a Coupled Tank Liquid (CTS) level system.pdf - Submitted Version Download (384kB)
	Text (Full Text) Parameter identification of a Coupled Tank Liquid (CTS) level system.pdf - Submitted Version Restricted to Repository staff only Download (1MB)

Abstract

To prevent buildup in systems or tanks, most industrial facilities use liquid level management as part of inventory control. Pumps are frequently used to move liquid from one system (tank) to another. The pump will cavitate if the liquid level in the tank falls below a certain level, which will harm it and, of course, cause serious difficulties with the plant's functioning. The objective of this study is to develop mathematical models of a connected tank system using system identification. The PID controller is then used to get the connected tank device's output value to what it needs to be. The overall performance of the linked tank system is then assessed by comparing the system's transient response using different PID controller tuning approaches. The empirically created transfer function model is based on the realistic CTS-001 model. When the model is finished, the SI toolbox is used to build a CTS model. The model is then tested to monitor and evaluate the system's transient reaction using open-loop and closed-loop techniques. This performance response is then utilized as a benchmark to build the PID controller and further optimize the overall device response. When the PID controller is put into the system, the outcomes are intended to generate improved overall performance. These findings imply that the system's output response may be fine-tuned to get a superior transient response and overall performance.

Actions (login required)

View Item