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Programme Information

Faculty Of Engıneerıng
Electrıcal And Electronıcs Engıneerıng (Englısh) General Information Administration Programme Outcomes Academic Staff Curriculum 1st Year 2nd Year 3rd Year 4th Year Degree Programmes Toros University Information Package Bologna Process Action Plan Toros University

Faculty Of Engıneerıng
Electrıcal And Electronıcs Engıneerıng (Englısh)

Course Information

HIGH VOLTAGE TECHNIQUES
Code Semester Theoretical Practice National Credit ECTS Credit
Hour / Week
EEE409 Fall 3 0 3 5

Prerequisites and co-requisites
Language of instruction English
Type Elective
Level of Course Bachelor's
Lecturer Assoc. Prof. Ahmet TEKE
Mode of Delivery Face to Face
Suggested Subject
Professional practise ( internship ) None
Objectives of the Course Are to give information about production and transmission of high voltages, and high-voltage transmission facilities are installation and operation of high voltage facilities.
Contents of the Course Overvoltages. Static Electric Field. Basic electrode systems. Breakdown phenomenon. Plane, spherical and cylindrical electrode systems, Calculation of the electric field and potential. Approximate calculation of maximum electric field. Layered electrode systems. Refraction or surfaces boundaries. Uniform forced cable and capacitor bushings. Gas, liquid and solids discharge . İonization. discharge theories. Moving waves and calculation. Insulation coordination.

Learning Outcomes of Course

# Learning Outcomes
1 Be able to explain high voltage production and transmission
2 Be able to define installation and operatin principles of high voltage facilities
3 Familiriaty of high voltage components and knowlwdge of optimal sizing and selection of high voltage coponent
4 Have information on measures to be taken against overvoltages.
5 Information of measures to be taken against over-stressed high voltage systems.
6 Ability to comment on discharge of solids, liquids and gases.
7 Ability to analyse travelling waves.
8 Knowledge of insulation in power systems.

Course Syllabus

# Subjects Teaching Methods and Technics
1 Introduction. Overvoltages. Production of high voltages, Homework lecture, discussion, presentation
2 Static Electric Field. Basic Equations. Basic electrode systems. Plane and spherical electrode systems. lecture, discussion, presentation
3 Breakdown phenomenon. Plane electrode systems and global examination of the penetration and economic terms. lecture, discussion, presentation
4 Identical and parallel cylindrical electrode systems. Examination of the system in terms of penetration. Calculation of maximum electric field lecture, discussion, presentation
5 Some electrical systems, as the account is about the maximum electric field. lecture, discussion, presentation
6 Layered and multi-layered electrode systems, Homework lecture, discussion, presentation
7 Boundary fracture surfaces. Condenser bushings. lecture, discussion, presentation
8 Midterm exam
9 Conformal transformations. lecture, discussion, presentation
10 The discharge phenomena in gases. Ionization and types. SF6 gas properties, Homework lecture, discussion, presentation
11 Channel discharge theory. Towsend\'s discharge theory. lecture, discussion, presentation
12 Corona discharges. Surface and lightning discharges. Overvoltages caused by lightning lecture, discussion, presentation
13 Travelling waves on transmission line . Reflected and refracted, Homework lecture, discussion, presentation
14 At the end of line putting resistors, capacitors and transformer Thumbnail be. lecture, discussion, presentation
15 Bewley method, Term Paper lecture, discussion, presentation
16 Final Exam

Course Syllabus

# Material / Resources Information About Resources Reference / Recommended Resources
1 M. Özkaya, Yüksek Gerilim Tekniği, Cilt:1-2, Birsen Yayınevi, İstanbul, 1996.
2 M. Özkaya, Yüksek Gerilim Tekniğinde Ölçme, İ.T.Ü. Kütüphanesi, İstanbul, 3.Baskı 1984.

Method of Assessment

# Weight Work Type Work Title
1 40% Mid-Term Exam Mid-Term Exam
2 60% Final Exam Final Exam

Relationship between Learning Outcomes of Course and Program Outcomes

# Learning Outcomes Program Outcomes Method of Assessment
1 Be able to explain high voltage production and transmission 1 1͵2
2 Be able to define installation and operatin principles of high voltage facilities 1 1͵2
3 Familiriaty of high voltage components and knowlwdge of optimal sizing and selection of high voltage coponent 1 1͵2
4 Have information on measures to be taken against overvoltages. 1 1͵2
5 Information of measures to be taken against over-stressed high voltage systems. 1 1͵2
6 Ability to comment on discharge of solids, liquids and gases. 1 1͵2
7 Ability to analyse travelling waves. 1 1͵2
8 Knowledge of insulation in power systems. 1 1͵2
PS. The numbers, which are shown in the column Method of Assessment, presents the methods shown in the previous table, titled as Method of Assessment.

Work Load Details

# Type of Work Quantity Time (Hour) Work Load
1 Course Duration 14 3 42
2 Course Duration Except Class (Preliminary Study, Enhancement) 14 2 28
3 Presentation and Seminar Preparation 0 0 0
4 Web Research, Library and Archival Work 0 0 0
5 Document/Information Listing 0 0 0
6 Workshop 0 0 0
7 Preparation for Midterm Exam 0 0 0
8 Midterm Exam 0 0 0
9 Quiz 0 0 0
10 Homework 0 0 0
11 Midterm Project 0 0 0
12 Midterm Exercise 0 0 0
13 Final Project 0 0 0
14 Final Exercise 0 0 0
15 Preparation for Final Exam 1 15 15
16 Final Exam 1 40 40
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