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Identification Subject ENGR210 Fluid Mechanics 6 ECTS credits
Department Petroleum Engineering
Program Undergraduate
Term Spring, 2020
Instructor Masoud Mehrizadeh
E-mail: mmehrizadeh@khazar.org
Phone: 055 4625367
Classroom/hours
Office hours
Prerequisites ENGR205
Language English
Compulsory/Elective Compulsory
Description This course is an introduction to vast field of mechanics of fluids. First students
learn about fluids and their fundamental properties and how they affect behavior of
fluids. Then more advanced properties of stationary fluids such as surface tension
and hydrostatic pressure is discussed. Next, behavior of fluids in motion and their
influence on environment is addressed.
Required textbooks “Brief Introduction to Fluid Mechanics” by Donald F. Young, Bruce R.
and course materials Munson, Theodore H. Okiishi, Wade W. Huebsch-A, Fifth Edition,
published by Wiley Publication, 2010.
“Fluid Mechanics with Engineering Applications” by E. John
Finnemore and Joseph B. Franzini, 10th. Edition, published by McGraw
Hill, 2001.
Course outline Stress and strain rate descriptions, fluid statics, and use of differential and finite
control volume analysis with continuity, momentum, and energy equations,
Bernoulli and Euler equations, and incompressible viscous flow using Naiver-
Stokes equations.
Course objectives The course helps students to gain a basic understanding of properties of fluids and
how to measure them. These knowledge lead to determination of behavior of
fluids in various conditions. Moreover, the course enables students to apply the
concepts in broad range of engineering problems from blood in human body to
galaxies.
Learning outcomes • Determination of basic characteristics of fluids,
• Calculation of hydrostatic pressure at any given point in fluids,
• Calculation of forces exerted by fluids,
• Describing properties of fluid flows under various conditions,
• Formulating conservation of mass, moment and energy for different
systems of fluids,
• Apply governing equations of fluid flows to different engineering
problems,
Teaching methods Lecture x
Experiential exercise x
Assisted work x
Assisted lab work x
Others
Evaluation Methods Date/deadlines Percentage (%)
Midterm Exam 30
Class Participation 10
Quizzes (4-6) 20
Lab Exercises 5
Project (3 phases) -
Final Exam 35
Total 100
Policy • NO CELL PHONES are allowed during lecture and lab sessions.
PLEASE turn them off before lecture! (Not silent or vibrating mode).
This is a university policy and violators will be reprimanded accordingly.
• Participation and interaction in classes are more important than just
attendance.
• No late assignments will be accepted without prior arrangement with the
instructor for acceptable excuses. Medical and family emergency will be
considered on case-by-case basis.
• No late homework will be accepted. Homework is to be completed on an
individual basis. Students may discuss homework with classmates, but
students are responsible for your own work. If students have consulted
classmates, please note the individuals name on the top of students’
assignment.
• Quizzes may be given unannounced throughout the term and will count
as one homework. There will be no make-up quizzes.
• One or two sessions will be held in fluid mechanics laboratory and
Lab exercise including technical report will be asked based on
experiments. Students are responsible for completing the reading
assigned from the textbook related to the covered topics and for checking
email regularly for important information and announcements related to
the course.
• University policy on academic honesty concerning exams and individual
work will be strictly enforced.
• BE ON TIME!
Tentative Schedule
Date/Day
Week Topics Textbook/Assignments
(Tentative)
1 11.02.2020& Introduction to Fluid Mechanics Chapter 1
13.02.2020
18.02.2020& Fluid Properties; Dimensions and Units Chapter 1
2 20.02.2020
25.02.2020& Viscosity and Compressibility, Surface Tension Chapter 1
3 27.02.2020
4 03.03.2020& Introduction to Fluid Statics Chapter 2
05.03.2020
10.03.2020& Pressure calculation at a point Chapter 2
5 12.03.2020
7 17.03.2020& Pressure variations and measurements Chapter 2
19.03.2020
20.03.2020- Holiday
8 26.03.2020
9 31.03.2020& Hydrostatic force calculations Chapter 2
02.04.2020
07.04.2020& Midterm Exam
10 09.04.2020
14.04.2020& Introduction to Fluid Kinematics Chapter 3
11 16.04.2020
21.04.2020& Bernoulli Equation Chapter 3
12 23.04.2020
13 28.04.2020& Examples of use of Bernoulli Equation Chapter 4
30.04.2020
Introduction to Control Volume analysis Chapter 4
14 05.05.2020&
07.05.2020 Velocity and acceleration field
12.05.2020& Reynolds Transport Theorem and conservation of Chapter 4
15 14.05.2020 mass
Conservation of Momentum and Energy Chapters 8
16 19.05.2020&
21.05.2020 Viscous flow in pipes
This syllabus is a guide for the course and any modifications to it will be announced in advance.
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