| Code | М02040В |
| Course unit | Management of Ship Electromechanical Systems |
| Nomber of credits ECTS | 2.0 |
| Language of education | Ukrainian |
| Learning outcomes of course unit | Knowledge of the main components of electromechanical systems, including power converters, electric machines, and their loads. Knowledge and understanding of the operation principle of power converters, asynchronous machines, synchronous machines, and direct current machines. The ability to identify the parameters of electric machines and use equivalent circuits to analyse electric machines in steady and dynamic modes. Ability to plan and carry out maintenance and repair of ship's electromechanical systems. Ability to analyse, develop, implement, and operate modern electrical and electronic control and protection systems of electromechanical systems, energy-efficient electric machines of electric drive systems, PLC-controlled and automation systems (control systems for electric machines – frequency-regulated electric drive and power converters). The ability to use the control laws of shipboard electromechanical systems for their energy-efficient operation. Knowledge of means and understanding of requirements for ensuring electromagnetic compatibility of shipboard electromechanical systems. Ability to monitor, analyse and assess the technical condition of electromechanical systems and knowledge of troubleshooting methods. |
| Types of educational work | Lecture, practical, laboratory classes and simulator training |
| Type of final control | |
| Content of course unit | The acquisition of learning outcomes for the educational component is achieved by studying the educational material in the following sections: Basic concepts, definition, and classification of electromechanical systems (EMS). Structure of modern automated EMS. Mechanics of EMC. Kinematic design diagrams of the mechanical part of the EMC. Equation of motion and operating modes of EMC. Electromechanical properties and characteristics of DC and AC motors, steady-state operating modes. Dynamics of electromechanical systems. Transient processes in EMC. Dynamic properties of open-loop electromechanical systems. EMC energy and basics of motor selection. Regulation of EMC coordinates. General EMC management issues. Relay-contactor control systems for DC and AC motors. Control of synchronous motors in basic operating modes. Closed-loop EMC control systems for direct and alternating current. AC EMC control systems with power converters in the stator and rotor. |
| Equipment (if applicable) | Laboratory equipment of the certified authorized Mitsubishi Electric training center: (6 laboratory stands, including the following components: "Automatics and frequency converter" + "PLC, communication networks, HMI") |