Electrical Power Engineering Syllabus
In accordance with educational objectives (EO) and student outcomes (SO) of the Electric Power Engineering Study Program (EP), the syllabus is designed to prepare students to become electrotechnical undergraduate graduates with basic skills and knowledge that qualify in the electricity industry. In general, the learning process for EP students will be divided into 8 semesters with minimum passing criteria of 144 credits.
In the first and second semester, students will study basic courses of all majors at STEI. For the EP study program, all these subjects will be the basis for passing the undergraduate level, such as Mathematics which is the basis for calculations, Introduction to Circuit Analysis which is the basis for all EP subjects, and so on. In the third and fourth semester, students will deepen their previous knowledge and will start entering laboratory to do practicum.
Then, in fifth and sixth semester, students will learn the core subjects of electrical power engineering. Some subjects like Electric Machines, Power System Analysis, and so on will be studied here. The Electric Machines subject dealt with the performance and analysis of various electric machines and its applications. Starting with the electromagnetic circuits and transformers, the course then dealt with the of electromechanic conversion concept. The DC motors and generators, the AC machines are discussed thoroughly in this course. Its also discussed the modern concept of electric machine types. Then, the Power System Analysis subject examines the various components of power system, power flow, short circuit, transient stability, and the principles of power system controls and economic operations.
Then, the Electrical Engineering Material subject will discuss various theories and material properties used in the power system. Next, the High Voltage Engineering subject discuss the application of high voltage engineering in industry. Next, the Power Electronics subject will discuss the basic concepts of power electronics and power converters. Last, the Electric Power Plant subject will be introduced to various kinds of power plants, both conventional and renewable. Not to forget, in both semesters there will be a very exciting electric power practicum.
In semester 7 and semester 8 there will be a Final Project and additional subject matter which will deepen your power system knowledge.