Electrical Engineering (EE-NI)

second cycle degree programmes

Studies’ goals The aim of education at the undergraduate studies is to achieve knowledge in the field of: structure, principles of operation and configuration of electric power supply systems for industrial plants, reliability and operation of the power system, exploitation and diagnostics of electric apparatus and machines, selection and configuration of electric power protection systems and automation of electric drives. An important area of acquired competences are also analytical skills, based on knowledge in the field of numerical methods applied in technology and circuit theory. Regarding this part of education, the student achieved the following skills: teamwork, managing human resources, conducting experimental works, as well as presenting the results and assessing of engineering decisions. The graduate has skills in the field of broadly defined electrical engineering, in particular in the field of adequate exploitation of devices powering industrial plants and working in the national power system. The graduate also has basic skills in the design of electric machines. Graduate’s knowledge After completing the undergraduate studies the graduate will have knowledge in the following areas: • mathematics, physics and environmental engineering, allowing to understand the phenomena related to broadly defined electrical engineering and electric power engineering, • electrical engineering, fundamentals of metrology and information technology, • architecture of computer systems, computer networks, operation systems and modem IT solutions related to electrical engineering issues, • operation of the electric power system, sufficient for formulation and solving simple design and structure tasks related to distributed electric power sources and smart grids, • structure, configuration and operation principles of low-voltage installations in various network configurations, • regulations regarding protection against electric shock in low voltage networks; technical parameters selection of devices and electric machines; overvoltage protection; functioning of energy markets, • electric machines, electromagnetism, electromagnetic fields and waves, • high voltage applications, dielectric strength, discharges and overvoltage in insulation systems, aging process of solid, liquid and gaseous dielectrics, • modem techniques for technical condition assessment of devices and electric machines operating in the electric power system, • application of IT tools in electrical engineering, • heat exchange, thermodynamics of processes and fundamental thermodynamic transfer, and the theory of thermal machines, • fundamentals of automation and control as well as architecture and programming of microprocessor systems, • economics and financial engineering allowing simple analysis regarding the economic efficiency of energy and electric power grids and installations, • renewable energy, electric power engineering and operation of various electric power sources, with particular consideration of the cogeneration process. Graduate’s skills After completing the undergraduate studies the graduate will have the following skills: • application of the mathematical tools for description and analysis of the operation of electric circuits, electronic components, analog and digital electronic circuits, as well as fundamental physical phenomena occurring in them; • discrimination of physical phenomena occurring in nature and technology, measurements and determination of basic physical quantities, solving technical problems based on the laws of physics, • structural and object-oriented programming at the basic level, programming of the real-time devices operation, applications of databases and computer technology in engineering, • planning and conducting experiments and measurements of selected physical quantities, • design and configuration of electrical circuits, design and implementation of electric installations as well as electric, microprocessor and power electronics devices, • applications of numerical methods in technology, perform simulation and design calculations of electric devices and circuits, • optimal selection of technical parameters of electric machines and devices used for electric power generation, transmission and distribution, • computer systems application for communication with peripheral devices and measurement data acquisition, • making a preliminary economic analysis of investment projects in the electric power sector, quality management and conducting business, • knows the foreign language at B2 level • independently analyzing problems related to transmission, distribution and consumption of electric power, • is prepared to continue education at graduate studies. Graduate’s social competences After completing the undergraduate studies the graduate will have the following social competences: • understands the need and knows the possibilities of continuous training and raising professional, personal and social competences, • understands the non-technical aspects and effects of electrical engineer activities, including their impact on the environment and responsibility for decisions related to these activities, • understands the necessity of observing the rules of professional ethics and respecting the diversity of opinions and cultures, • is aware of the responsibility for his own work, and readiness to comply with the rules of working in a team, and taking responsibility for the tasks one has carried out collectively, • can think and act in an entrepreneurial way, • is aware of the social role of a technical university graduate. In particular, understands the need to formulate and share with the society (i.e. through mass media) his opinions and information related to the achievements not only of the broadly defined electrical engineering but also other aspects of the engineer's activities in the field of renewable energy sources. Endeavors to provide such information and opinions in a widely understood manner. Graduates from the electrical engineering degree course, undergraduate studies, have the skills to be employed in: energy companies; electric power generation, transmission and distribution companies; companies dealing with the diagnostics of electric power devices; design offices involved in electrical installations for residential, public and industrial facilities; in education; scientific institutions as well as entities of the emerging labor market related to renewable energy sources. Graduates are prepared to continue education at graduate studies.

Visit the following page for details on admission procedures: https://irk.po.edu.pl/