This course focuses on the propagation of electrical waves in power networks, using various modeling and analytical techniques. Students will gain an understanding of the mathematical and technical foundations of multi-conductor transmission lines and learn how to analyze them in both time and frequency domains. The course covers the calculation of line parameters in low and high frequencies, modeling of multi-conductor lines, and the solution of line equations using frequency and time-domain approaches.
Key topics include:
- General equations of coupled lines, modal analysis, and line representation through impedance and admittance matrices.
- Calculation of line parameters for multi-conductor overhead lines, shielded buried cables, and shielded aerial cables.
- Modeling of lines in both the frequency and time domains, including Finite Difference Time Domain (FDTD) methods.
- Solutions to line equations in the frequency and time domains, along with a comparison of both methods.
- Wave propagation modeling in power networks, considering soil conductivity effects.
The course aims to provide students with the skills to analyze and solve problems in electrical networks, focusing on wave propagation, transmission line equations, and modern solution methods. It requires a basic understanding of electrical networks and transmission lines.
- المعلم: talal guia
L’objectif du cours est l’étude de l’organisation de la protection des réseaux électriques, des perturbations des techniques de mesure. L’étudiant doit savoir comment faire la détection de défauts et comment faire la protection des éléments du réseau électrique et comment coordonner la protection.
- المعلم: lazhar bougouffa