Title :
QFT Synchronous Control System of Ring Gate for Hydraulic Turbine
Author :
Guo, Chunli ; Li, Zhifeng ; Du, Chenyang ; Wang, Fengyang
Author_Institution :
China Special Equip. Inspection & Res. Inst., Beijing, China
Abstract :
The nonlinear dynamic mathematical model was proposed based on the hydrodynamic force analysis of ring gate by CFD simulation in order to satisfy the need for multi-cylinder displacement and velocity control. According to ring gate motion style, QFT synchronous control mode was made into use in the ring gate opening and closing process. It shows that the controller with use of QFT acquires the requirement of trace ability, robust stability and input disturbance restraint ability, which keeps from unfavorable influence of non-linear and uncertain factors in the opening and closing process of ring gate located in hydropower plant.
Keywords :
angular velocity control; computational fluid dynamics; displacement control; hydraulic turbines; hydroelectric power stations; nonlinear programming; power generation control; robust control; stability; CFD simulation; QFT synchronous control system; hydraulic turbine; hydrodynamic force analysis; hydropower plant; input disturbance restraint ability; multicylinder displacement control; nonlinear dynamic mathematical model; ring gate closing process; ring gate opening process; robust stability; trace ability; velocity control; Control systems; Hydraulic turbines; Hydroelectric power generation; Logic gates; Mathematical model; Synchronization; Valves;
Conference_Titel :
Power and Energy Engineering Conference (APPEEC), 2012 Asia-Pacific
Conference_Location :
Shanghai
Print_ISBN :
978-1-4577-0545-8
DOI :
10.1109/APPEEC.2012.6306999
