Title :
Nonlinear digital simulation model of hydroelectric power unit with Kaplan turbine
Author :
Brezovec, Miljenko ; Kuzle, Igor ; Tomisa, Tomislav
Author_Institution :
Hrvastska Elektroprivreda d.d., Varazdin, Croatia
fDate :
3/1/2006 12:00:00 AM
Abstract :
Mathematical and simulation models enable hydroelectric power unit dynamic behavior analysis using computers. To approximate the power unit dynamics as accurate as possible, nonlinear high-order model is required. This paper describes a hydroelectric power unit with double regulated Kaplan turbine. The runners of such turbines permit the blades angle to be varied on the run depending on operating conditions. This ensures maximum turbine efficiency under all operating conditions. Detailed mathematical and digital simulation model of the hydroelectric power unit with double regulated turbine was presented for turbine control system analysis. Simulation model developed for Varazdin HPP (power unit 1) is verified by several comparisons with real measurement results.
Keywords :
blades; hydraulic turbines; hydroelectric power stations; mathematical analysis; power engineering computing; Kaplan turbine; blade angles; dynamic behavior analysis; hydroelectric power unit dynamics; mathematical simulation model; nonlinear digital simulation model; nonlinear high-order model; turbine control system analysis; Analytical models; Blades; Computational modeling; Computer simulation; Control system analysis; Digital simulation; Hydraulic turbines; Mathematical model; Power measurement; Power system modeling; Hydraulic turbines; hydroelectric power generation; piecewise linear approximation; power system modeling; power system simulation; spline functions;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2005.847963
