Course Code:                               : 5103245

  Course Name                               :  Engineering Economics

  Instructor                                      :  Asst. Assoc. Dr. Refet KARADAĞ

  Theoretical /  Practical / Credit : 3 / 0 / 3

 Learning Activity

Estimated Time(Hour)

Evaluation

Theoretical Course (14 Week)

2 x 14 = 28

Participation to class

Guided Problem Solving

2 x 14 = 28

 

Individual Study

3 x 14 = 42

 

Weekly homework problems solving

1 x 14 = 14

Individual or teamwork and report preparation for homework’s.

Term project

None

 

Midterm Exam

4 x 2 = 8

Open/ Closed exam

Final Exam

Exam                  : 2

Individual work    : 8

Open/ Closed exam

Quiz (4 piece)

Individual work    : 8

Open/ Closed exam

Research (internet/library)

 

 

Other(………………………. )

 

 

Total Course Load (Hours)

138

 

 

 

 

HARRAN UNİVERSITY ENGINEERING FACULTY

MECHANICAL ENGI0NEERING DEPARTMENT

           

Course Name

Code

Semester

T+U

Credit

AKTS

 

Engineering Economics

5103245

Spring

3+0

3

5

 

Prerequisite Courses

None

Language of Course

Turkish

Course class

Elective

Coordinator of Course

Asst. Assoc. Dr. Refet KARADAĞ

Instructor

Asst. Assoc. Dr. Refet KARADAĞ

Course Assistant

-

Objective of course

Engineering with the related applications in terms of economic and cost evaluation. Compare the results in terms of cost, and recycling. The optimum choices can be made.

Course Learning Output

 

Course Contents

Introduction and basic concepts, economic evaluation methods, the rational use of energy resources. Energy and environment relationship. Cost analysis of alternative energy sources and recycling. Heat plant energy economy.

 

Weeks

Plan of Course at Semester

1

Engineering and economics, the basic concepts of engineering economy

2

Physical and economic efficiency, cost, price, value, benefit and time concepts

3

economic evaluation methods, production, cost, recycling.

4

Alternative techniques for project evaluation and project selection.

5

Example practices.

6

Rational use of alternative energy sources.

7

Energy and environment relationship.

8

Cost analysis of alternative energy sources and recycling

9

MID-TERM EXAM

10

(Heat plant) energy economy.

11

Example practices. Selection and cost analysis of wind turbine capacity

12

Example practices. Solar energy applications, and cost analysis

13

Example practices. Geothermal energy applications, and cost analysis

14

FINAL EXAM

 

General Sufficiency

Evaluate the cost in terms of economic and related engineering applications. Compare the results in terms of cost, and recycling. Make The optimum choice.

 

References

1.   Ekrem Manisalı, Mühendislik Ekonomisi Ders Notları

2.   Mühendislik Ekonomisi Temel Prensipleri ve Uygulamaları, Rıfat Akbıyıklı, Birsen yayınevi

Form of Assessment

Mid Exam and Task/Project Average of Arithmetical: %40

Final:%60

Projects:-

Homework:-