Week
|
Topics
|
Study Metarials
|
1
|
Presentation of network shapes,
|
R1-Chapter-1
|
2
|
Construction and arrangement of networks
|
R1-Chapter-2
|
3
|
Criteria for line cross section calculations
|
R1-Chapter-3
|
4
|
Voltage drop calculations (Low Voltage)
|
R1-Chapter-4
|
5
|
Voltage drop calculations (Medium Voltage)
|
R1-Chapter-5
|
6
|
Voltage drop calculations on a branch network
|
R1-Chapter-6
|
7
|
Voltage drop in equally spread loaded networks
|
R1-Chapter-7
|
8
|
Voltage drop in mixed-load networks
|
R2-Chapter-1
|
9
|
Network and voltage drop calculations from two sides, Voltage drop calculations in networks with node point
|
R2-Chapter-2
|
10
|
Conductors used in electrical energy distribution
|
R2-Chapter-3
|
11
|
Underground cabling
|
R2-Chapter-4
|
12
|
Mains failure and short circuit calculations
|
R2-Chapter-5
|
13
|
Ice Load, Wind Load
|
R2-Chapter-6
|
14
|
Sag calculation
|
R2-Chapter-7
|
Prerequisites
|
-
|
Language of Instruction
|
Turkish
|
Responsible
|
Assoc. Prof. Dr. Fatih KORKMAZ
|
Instructors
|
-
|
Assistants
|
-
|
Resources
|
R1-Alperöz, N. (1987). Elektrik Enerjisi Dağıtımı (1.Basım), Nesil Matbaacılık, İstanbul.
R2-İnan, M. (1973), Orta Gerilim Şebekeleri Kısım-II (1. Basım), İTÜ Yayınları, İstanbul.
|
Supplementary Book
|
-
|
Goals
|
To give information about the structure, calculation and regulation of the existing mains types in distribution of electricity.
|
Content
|
Definition of network forms, Construction and regulation of networks, Criteria for line crossing calculations, Voltage drop calculations (Low Voltage), Voltage drop calculations (Medium Voltage), Voltage drop calculations in a branch network, Voltage drop in a network with equal spread, Voltage drop in a mixed load network, Calculations of Voltage Drops in Nodal Networks, Conductors Used in Electric Energy Distribution, Underground Cables, Mains Failures and Short Circuit Calculations, Ice Load, Wind Load, Sag Calculation
|
|
Program Learning Outcomes |
Level of Contribution |
1
|
Acquired the necessary skills in the areas of mathematics, applied sciences and his/her own field; has the ability to use collectively these concepts and applications of these fields to solve the problems of Electrical and Electronics Engineering,
|
5
|
2
|
Has the ability to define, identify, formulate and solve the problems of Electrical and Electronics Engineering and selects the appropriate analytic solutions, modelling and applies them in an orderly manner,
|
4
|
3
|
Analyses a system or a process and designs it under the given constraints meeting the requirements; applies the up to date design techniques in this direction,
|
4
|
4
|
Has the ability to choose and utilize the modern technologies and tools of engineering; has the ability to use information technologies and at least one software language (at the advanced European License level) in an efficient way,
|
-
|
5
|
Has the ability to design experiments, carries out experiments, analyses results and makes comments on these results,
|
-
|
6
|
Has access to information and undertakes literature survey in this direction; has the ability to search and use databases and other data resources,
|
4
|
7
|
Can participate and assume responsibility in multidisciplinary task forces,
|
-
|
8
|
Has the ability to communicate in Turkish verbally and in written forms; has the knowledge of one foreign language of European portfolio at the B1 level,
|
-
|
9
|
Conscious of lifelong learning; follows the science and technological developments and updates himself/herself continually,
|
3
|
10
|
Has the responsibility and conscious in his/her profession,
|
-
|
11
|
Has the ability to conduct projects, has knowledge of the work procedures, health of workers, environment and safety procedures of work places; is aware of legal consequences of engineering applications,
|
3
|
12
|
Is conscious of the consequences and effects of engineering solutions and applications in public and universal dimensions; is aware of innovation matters and has knowledge of the contemporary issues and problems,
|
-
|