Electrical & Control Engineering

Description

Problems of long distance power transmission. Advantages of HVDC. Combined AC, DC transmission systems. Terminal apparatus, converters, inverters, thyristor bridge circuits, thyristor valves. Performance requirements and control circuit features. Protection schemes. Digital simulation techniques. Switching and fault-clearance over voltages. RIV and corona in DC transmission lines.

Program

M.Sc. in Electrical and Control Engineering

Objectives

The student should be able to: Thoroughly understand the HVDC system transmission system and its components. Get the performance equirements of DC transmission line. Simulate the HVDC system.

Textbook

Data will be available soon!

Course Content

content serial

Description

1	Problems of long distance power transmission.
2	Advantages of HVDC.
3	Combined AC, DC transmission systems.
4	Terminal apparatus, converters, inverters, thyristor bridge circuits, thyristor valves.
5	Performance requirements and control circuit features.
6	Performance requirements and control circuit features(2).
7	Protection schemes.
8	Protection schemes(2).
9	Digital simulation techniques.
10	Digital simulation techniques(2).
11	Switching and fault-clearance over voltages.
12	Switching and fault-clearance over voltages (2).
13	RIV and corona in DC transmission lines.
14	Harmonics Analysis in HVDC.
15	Harmonics Analysis in HVDC(2).
16	Final Exam.

Markets and Career

Generation, transmission, distribution and utilization of electrical power for public and private sectors to secure both continuous and emergency demands.
Electrical power feeding for civil and military marine and aviation utilities.
Electrical works in construction engineering.

HVDC Power Transmission

Description

Program

Objectives

Textbook

Course Content

Markets and Career

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