Title :
Generalized Minimum Variance Control for Water Distribution System
Author :
Gomes Silva, Magno Jose ; Silva Araujo, Clivaldo ; Marques Bezerra, Saulo Tarso ; Rocha Souto, Cicero ; Arnaud Silva, Simplicio ; Pimentel Gomes, Heber
Author_Institution :
IFAL, Maceio, Brazil
Abstract :
This paper presents the project of an adaptive control system to modeling and controlling, in real time, a water distribution system. The controllers act in determining the turning speed of the motor/pump set and in the opening angle of control valves. An experimental workbench was set aiming at modeling and identifying parametrically a hydraulic network. The control system is a Generalized Minimum Variance self-tuning (GMV), whose parameters where real-time estimated by the recursive least squares (MQR) method according to the imposed inputs to the converter and the valves. The GMV aims at the pressure control in measuring points, which provided the reduction of energy and water in the workbench. Experimental results show the performance of adaptive control system and its ability to control the water distribution process.
Keywords :
adaptive control; pressure control; statistical analysis; valves; velocity control; water supply; GMV; adaptive control system; control valve; energy reduction; generalized minimum variance control; generalized minimum variance self-tuning; hydraulic network; motor turning speed; pressure control; pump turning speed; recursive least squares method; water distribution system; water reduction; Adaptation models; Adaptive control; Control systems; MIMO; Mathematical model; Process control; Real-time systems; Control System; Pumping System; energetic efficiency;
Journal_Title :
Latin America Transactions, IEEE (Revista IEEE America Latina)
DOI :
10.1109/TLA.2015.7069088
