OPTIMIZATION OF SLAB CASTER LIFTS IN ORDER TO REDUCE THE DYNAMIC LOADS
Journal: Electromechanical and energy saving systems (Vol.3, No. 19)Publication Date: 2012-09-30
Authors : O. Rebedak; S. Bakan; N. Zadorozhniy;
Page : 439-444
Keywords : slab-lift; dynamic mode; a minimum of oscillation.;
- MATHEMATIC TOOL OF ENERGY MODEL VERIFICATION SYSTEM FOR HIGH VOLTAGE ELECTRIC LOAD
- Load Modeling Using Anfis Tool in Voltage Stability Studies for 6 Bus and 30 Bus System
- Analysis and Synthesis of Influence of Tool-Electrode Materials in Electric Discharge Machining of M2 High-Speed Tool Steel
- Modeling of the Electric Power of the Kakobola Kikwit High Voltage Line in the DR C
- ENERGY EFFICIENCY AND RELIABILITY IN ELECTRICAL DISTRIBUTION NETWORK BY IMPLEMENTING HIGH VOLTAGE DISTRIBUTION SYSTEM
Abstract
The article describes the vertical lift slab caster, its purpose and principle of operation. We present transient waveforms obtained at commissioning. To optimize the dynamic modes of slab lift its two-mass model designed electromechanical system in an environment MATLAB Simulink. A technique for optimizing the electromechanical system of the lift slab on the criterion of maximum damping of oscillations in the mechanical subsystem by means of the drive. Graphic shows the obtained transients and recommendations for the parameterization of the drive slab lift.
Other Latest Articles
- ENERGY-SHAPING CONTROL OF TWO-MASS ELECTROMECHANICAL SYSTEM
- QUASI-OPTIMAL DISCRETE CONTROL OF LOAD OF SYNCHRONOUS GENERATOR WITH PERMANENT MAGNETS IN CONTACTLESS KONTRROTOR AUTONOMOUS WIND TURBINE
- DETERMINATION OF THE MAIN RECTIFIERS RATIOS OF GATED GENERATORS USING THE CALCULATION RESULTS OF TRANSIENT MODES
- MATRIX CONVERTER CONTROL ALGORITHMS WITH AN EXTENDED RANGE OF INPUT REACTIVE POWER REGULATION AND THEIR EFFECT ON THE RIPPLE OF ELECTROMAGNETIC TORQUE OF INDUCTION MOTOR
- THE NEW ALGORITHM OF THE EXTREMAL CONTROL
Last modified: 2015-06-04 23:46:32