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Course Information
Course Unit Title : Energy and Mass Balances
Course Unit Code : GDM209
Type of Course Unit : Compulsory
Level of Course Unit : First Cycle
Year of Study : 2
Semester : 3.Semester
Number of ECTS Credits Allocated : 4,00
Name of Lecturer(s) : ---
Course Assistants :
Learning Outcomes of The Course Unit : 1) an ability to use knowledge of mathematics, science and engineering
2) an ability to design and conduct experiments as well as to analyze and interpret data
3) an ability to function on multidisciplinary teams
4) an ability to identify, formulate and solve engineering problems
5) an understanding of professional and ethical responsibility
6) an ability to communicate effectively
7) an ability to use the techniques and modern engineering tools necessary for engineering practice.
Mode of Delivery : Face-To-Face
Prerequisities and Co-requisities Courses : Unavailable
Recommended Optional Programme Components : Unavailable
Course Contents : This course is concerned with the fluid static: derivation of fluid motion equation, derivation of hydrostatics pressure gradient, calculation of hydrostatics pressure force, its resultant force, Conservation of energy, Using Bernoulli equation in open and closed systems, 1-Dimensional heat transfer with conduction, with convection, and with radiation.

Languages of Instruction : Turkish-English
Course Goals : To learn fundamental principles of energy and mass transfer
Course Aims : To develop an understanding of some basic principles and laws in mass transfer, in energy. To formalize the analysis of mass, energy and momentum transport and to apply these concepts to revelant engineering situations.

WorkPlacement   Not Available
Recommended or Required Reading
Textbook : -
Additional Resources : Özkan, M., Cemeroğlu, B. ve Türkyılmaz, M. 2011, Gıda Mühendisliğinde Kütle ve Enerji Denklikleri, Gıda Teknolojisi Derneği Yayınları No:43. Ekinci, E. and Okutan, H., Mass Transfer, ITU Library, Number: 1357, Istanbul, TURKEY,1987. Bird, R. B. and Lightfoot, E. N., Transport Phenomena, Wiley Int. NY. 1960. Esin, A., Material and Energy Balances in Food Engineering, METU Press, Ankara, TURKEY, 1993. Incropera, F. P., and Dewitt, D. P., Fundamentals of Heat and Mass Transfer, Wiley Int., USA,1990. Bruce R. Munson, Donald F. YOUNG, and Theodore H. Okiishi, Funadamentals of Fluid Mechanics, USA, 1994. Frank M. White, Fluid Mechanics, 4. Edition, Trans. By Kadir Kırkköprü, Erkan Ayder, Istanbul, TURKEY, 2004.
Material Sharing
Documents : -
Assignments : -
Exams : -
Additional Material : -
Planned Learning Activities and Teaching Methods
Lectures, Practical Courses, Presentation, Seminar, Project, Laboratory Applications (if necessary)
ECTS / Table Of Workload (Number of ECTS credits allocated)
Student workload surveys utilized to determine ECTS credits.
Activity :
Number Duration Total  
Course Duration (Excluding Exam Week) :
14 2 28  
Time Of Studying Out Of Class :
14 1 14  
Homeworks :
10 3 30  
Presentation :
0 0 0  
Project :
0 0 0  
Lab Study :
0 0 0  
Field Study :
0 0 0  
Visas :
1 30 30  
Finals :
1 30 30  
Workload Hour (30) :
30  
Total Work Charge / Hour :
132  
Course's ECTS Credit :
4      
Assessment Methods and Criteria
Studies During Halfterm :
Number Co-Effient
Visa :
1 100
Quiz :
0 0
Homework :
0 0
Attendance :
0 0
Application :
0 0
Lab :
0 0
Project :
0 0
Workshop :
0 0
Seminary :
0 0
Field study :
0 0
   
TOTAL :
100
The ratio of the term to success :
40
The ratio of final to success :
60
TOTAL :
100
Weekly Detailed Course Content
Week Topics  
1 Unites and unite analysis in engineering
  Study Materials: -
2 Fluid static: derivation of fluid motion equation, pressure at a point, basic equation in fluid at rest.
  Study Materials: -
3 Fluid static: derivation of hydrostatics pressure gradient
  Study Materials: -
4 Fluid static: calculation of hydrostatics pressure force, its resultant force
  Study Materials: -
5 Fluid static: hydrostatics pressure and hydrostatics pressure force for multi-fluids and its resultant force
  Study Materials: -
6 Conservation of energy, using Bernoulli equation in ideal and real fluids
  Study Materials: -
7 Using Bernoulli equation in open and closed systems
  Study Materials: -
8 Examples before mid-term exam
  Study Materials: -
9 Mid-term exam
  Study Materials: -
10 Finding and calculation of energy losses, calculation of friction energy in real fluids
  Study Materials: -
11 1-Dimensional heat transfer with conduction
  Study Materials: -
12 1-Dimensional heat transfer with convection
  Study Materials: -
13 1-Dimensional heat transfer with radiation
  Study Materials: -
14 General replication and questions and answers before final exam
  Study Materials: -