HARRAN UNIVERSITY FACULTY OF ENGINEERING
DEPARTMENT OF CIVIL ENGINEERING
Name of Course
code
Hydrologic analysis and Design
5102129
Semester
T+U
credit
3+0
3
AKTS
Pre- Requisite Courses
None
Lenguage of course
Turkish
Type of course
optional
Course coordinator
Asst. Prof. Dr. Kasım YENİGÜN
Teaching Staff
Asst. Prof. Dr. Kasım YENİGÜN
Course Assistants
none
The Aim of The Course
Taking advantage of very great importance in civil engineering hydrology,
system modeling, rainfall-flow relations, investigation of flood routing for
this purpose, utilizing the applications of statistics to be an adequate level
of basic issues in science and other water-related issues and problems for
the implementation
Course Learning
Course content learned through issues, or apply your student enough to
Outcomes
respond to a problem related to hydrology answer is that sufficient.
Course Content
Hydrology system approach. Hydrological modeling of systems. The basic
equations of hydrological systems. Application of statistical methods in
hydrology. Hydrological processes. Modeling of streamflow series.
Risk analysis in hydrology. The project and project flow determination
of rainfall. Reservoir hydrology input.
Weeks
Issues
1
Hydrology system approach
2
Hydrological modeling of systems, hydrological systems, the basic equations.
3
Linear system models, flow-rainfall models
4
Unit hydrograph, unit hydrograph computer related to applications
5
Flood routing by the hydrological
6
Application of statistical methods in hydrology
7
Mid-Term Exam
8
Hydrological processes
9
Modeling of streamflow series
10
Flood frequency analysis, regional analysis of flood
11
Risk analysis in hydrology
12
The Project of rainfall and Project flow determination
13
Reservoir hydrology
14
Final Exam
General Competencies
Perception of the basic concepts of hydrological, Understanding the hydrological processes, the
establishment of the system logic, with the flood hydrograph theories fundamental shift
and project flow determination and competence can be regarded as a priority.
References
1-BayazıtM., İnşaat Mühendisliğinde Olasılık Yöntemleri, İ.T.Ü., 1996.
2- H A. - Ang S., Tang W. H., : Probability Concepts in Engineering Planning and Design, 2
Cilt, Wiley, 1975, 1984.
3- Benjamin J. R., Cornell C. A., : Probability, Statictics and Design for C. E., Mc Graw Hill,
1970.
4- Yen B. C, : Stochastic and Risk Analysis in Hydraulic Engineering , W. R. P., 1986.
5-Kottegoda N. T., : Stochastic Water Resources Technology, Halsted Press, 1979.
Hosking, J. R. M., Wallis, J. R., Regional Flood Frequency Analysis, Cambridge University
Press, 1997.
6- Hydrology Handbook, ASCE, 1996.
7- Stedinger, J. R., Vogel, R. M., Foufoula-Georgiou, E., Handbook of Hydrology,
Frequency Analysis of Extreme Events, Chapter 18, Mc Graw-Hill, 1992.
8- Yevjevich,V., Stochastic Processes in Hydrology, 1982.
9- Shen, H. W., Stochastic Approaches to Water Resources, Colorado, 1976.
10- Kite,G. W., Flood Freguency and Risk, Ottowa, 1974
Rating System
Mid- Term Exam (%40) and Final Exam(%60)
Code
: 5102129
Name of Course : Hydrologic Analysis and Design
Lecturer
: Asst. Prof. Dr. Kasım YENİGÜN
Theory-Practice-Credit: 3-0-3
Learning Effectiveness
Estimated Duration(Hour)
Assessment
Teoric Course (14 Weeks)
3x14 = 42
Class Participation
Guided Problem Solving
1 x 14 = 14
Active Participation
Individual Study
2 x 14 = 28
Weekly Homework Problem
Solving
none
Term Project
none
Mid-Term Exam
Exam = 3
Group Work, delivery of the
written report
Closed Book –Written Exam
Individual Study = 7
Final Exam
Exam = 6
Closed Book –Written Exam
Individual Study = 10
Quiz (4 total)
Resarch (internet/küt.)
14
Other(
..................................................
)
Other( ....................................... )
Total Course Load (Hour)
138
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