Study of the Shock Loads Effect on the Operation of Multi-Motor Electric Drives of a Rolling Mill with a Second-order Elastic Coupling
- Resource Type
- Conference
- Authors
- Tytiuk, Valerii; Kalinin, Alexey; Druzhinin, Valeriy; Kuznetsov, Vitalii; Chornyi, Oleksii; Busher, Victor
- Source
- 2023 IEEE 5th International Conference on Modern Electrical and Energy System (MEES) Modern Electrical and Energy System (MEES), 2023 IEEE 5th International Conference on. :1-5 Sep, 2023
- Subject
- Power, Energy and Industry Applications
Strips
Power quality
Metals
Elasticity
Synchronous motors
Mathematical models
Finishing
rolling conditions
hot rolling mill
electromagnetic coupling
intercoupled electric drive
- Language
This paper presents a study for optimizing a hot rolling mill. The paper is devoted to the study of ways to reduce the effect of shock loads of synchronous electric drives of the roughing mill group on the relative lengthening of the metal strip in the inter-stand gap of the rolling stands of the finishing mill group. The elasticity of the metal strip in the inter-stand gap of the rolling mill has a significant impact on the movement of intercoupled multi-motor electric drives of the finishing mill group. Another crucial route of exposure that influences the motion of the electric drives within the finishing mill group involves the electromagnetic connection between the drives in the roughing and finishing mill groups. The impact of the electromagnetically connected circuits is evident through the effect of shock loads from synchronous electric drives on the angular velocity of the direct current electric drives within the finishing mill group. The characteristics of the electromagnetic communication circuit are established by the power grid arrangement and equipment specifications. To assess the quality of work of electric drives of the finishing mill group, it is proposed to use the relative lengthening of the metal strip in the inter-stand gap, which is an important indirect indicator of the quality of rolling. The mathematical model of a hot rolling mill that takes into account both the elasticity of the metal strip that connects the DC electric drives of the finishing group, and the electromagnetic coupling circuit that takes into account the impact loads of synchronous electric drives of the roughing group on the example of the mill 1700 of ArcelorMittal Temirtau JSC was proposed in this paper. Using the mathematical model developed in Simulink software using the methods of planning the experiment, regression models were obtained to establish the dependence of the parameters of overexcitation of a synchronous motor on the magnitude of the voltage sag in the node of the power grid system and the relative lengthening of the metal strip in the inter-stand gap. The obtained results will improve the quality of the finished product of the rolling mill.