Nevşehir Hacı Bektaş Veli University Course Catalogue

Information Of Programmes

VOCATIONAL SCHOOL OF NEVŞEHİR / AEK114 - ALTERNATIVE ENERGY RESOURCES TECHNOLOGIES

Code: AEK114 Course Title: HIGH VOLTAGE TECHNICAL Theoretical+Practice: 2+1 ECTS: 4
Year/Semester of Study 1 / Spring Semester
Level of Course Short Cycle Degree Programme
Type of Course Optional
Department ALTERNATIVE ENERGY RESOURCES TECHNOLOGIES
Pre-requisities and Co-requisites None
Mode of Delivery Face to Face
Teaching Period 14 Weeks
Name of Lecturer TAHİR KARAKOÇ (t.karakoc@nevsehir.edu.tr)
Name of Lecturer(s) TAHİR KARAKOÇ,
Language of Instruction Turkish
Work Placement(s) None
Objectives of the Course
In this course of events in the field of high-voltage identification and promotion of staff, was developed aimed to show how the basic theories.

Learning Outcomes PO MME
The students who succeeded in this course:
LO-1 Can define the basic equations of the static electric field. PO-16 Knows the properties of the elements used in high voltage energy transmission and distribution, makes installation, maintenance and repair of these elements.
Examination
LO-2 Can make electric field and potential calculations in planar, spherical and cylindrical electrode system. PO-16 Knows the properties of the elements used in high voltage energy transmission and distribution, makes installation, maintenance and repair of these elements.
Examination
LO-3 Can properly identify the cable and condenser bushings. PO-16 Knows the properties of the elements used in high voltage energy transmission and distribution, makes installation, maintenance and repair of these elements.
Examination
LO-4 Can explain Discharge events. PO-16 Knows the properties of the elements used in high voltage energy transmission and distribution, makes installation, maintenance and repair of these elements.
Examination
LO-5 Can explain the types of ionization and channel discharge theory PO-16 Knows the properties of the elements used in high voltage energy transmission and distribution, makes installation, maintenance and repair of these elements.
Examination
PO: Programme Outcomes
MME:Method of measurement & Evaluation

Course Contents
Basic equations of the static electric field, electric field and potential planar electrode system. System capacity and strain. Global electrode system, the electric field and potential. Examination of the global capacity of the system in terms of the electrode system, cylindrical electrode system breakdown electric field and potential. Examination of the system's capacity depletion cylindrical electrode system of the electric field parallel-axis cylindrical electrode systems approximate calculation of the maximum electrode systems. Layered electrode systems. Smooth fracture surfaces and the forced boundary condenser bushings cable discharge events. Corona discharge and surface discharge theory of ionization and types of discharges lightning discharge channel. Lightning formation, properties and effects.
Weekly Course Content
Week Subject Learning Activities and Teaching Methods
1 Basic equations of the static electric field. Lecture, Question and answer, Summarizing.
2 Planar electrode system, the electric field and potential, and the strain on the system capacity. Lecture, Question and answer, Summarizing.
3 Global electrode system, the electric field and potential, the system's capacity. Lecture, Question and answer, Summarizing.
4 Examination of the electrode system in terms of a global breakdown. Lecture, Question and answer, Summarizing.
5 Cylindrical electrode system, the electric field and potential. Lecture, Question and answer, Summarizing.
6 Examination of perforation cylindrical electrode system. Lecture, Question and answer, Summarizing.
7 Axis parallel to the cylindrical electrode systems. Lecture, Question and answer, Summarizing.
8 mid-term exam
9 Approximate calculation of the maximum electric field at the electrode systems. Lecture, Question and answer, Summarizing.
10 Layered electrode systems, boundary fracture surfaces. Lecture, Question and answer, Summarizing.
11 Properly forced cable and condenser bushings. Lecture, Question and answer, Summarizing.
12 discharge events Lecture, Question and answer, Summarizing.
13 Ionization and types - Channel discharge theory Lecture, Question and answer, Summarizing.
14 Corona discharge and surface discharges Lecture, Question and answer, Summarizing.
15 Lightning formation, properties and effects. Lecture, Question and answer, Summarizing.
16 final exam
Recommend Course Book / Supplementary Book/Reading
1 Kalenderli, Ö.Kocatepe,C.Kocatepe,C.(2005).Çözümlü Problemlerle Yüksek Gerilim Tekniği. Cilt1.İstanbul: Birsen Yayınev.
Required Course instruments and materials
Textbook, Computer, Projector,

Assessment Methods
Type of Assessment Week Hours Weight(%)
mid-term exam 8 1 40
Other assessment methods
1.Oral Examination
2.Quiz
3.Laboratory exam
4.Presentation
5.Report
6.Workshop
7.Performance Project
8.Term Paper
9.Project
final exam 16 1 60

Student Work Load
Type of Work Weekly Hours Number of Weeks Work Load
Weekly Course Hours (Theoretical+Practice) 3 14 42
Outside Class
       a) Reading 4 10 40
       b) Search in internet/Library 2 9 18
       c) Performance Project 0
       d) Prepare a workshop/Presentation/Report 0
       e) Term paper/Project 0
Oral Examination 0
Quiz 0
Laboratory exam 0
Own study for mid-term exam 2 5 10
mid-term exam 1 1 1
Own study for final exam 2 4 8
final exam 1 1 1
0
0
Total work load; 120