ENGR 251/ M and XLyes KADEM Fall 2011

CONCORDIAUNIVERSITY

FACULTY OF ENGINEERING AND COMPUTER SCIENCE

DEPARTMENT OF MECHANICAL AND INDUSTRIAL ENGINEERING

Thermodynamics I (ENGR 251), Fall 2011, SectionsM & X

Instructor: Dr. Lyes Kadem, Room EV 4.207

Email:

Tel: 848-2424 #3143

Office Hours: Tuesdays and Thursdays and9:00 -10:00 am

Website:

[No Moodle website]

Lectures: M: Mondays and Wednesdays4:15 – 5:30 SGW, H411.

X: Tuesdays and Thursdays 10:15 – 11:30 SGW, H407.

Tutorials:

MA / H-615 / Friday 16:15 – 17:55
MB / H-621 / Friday 16:15 – 17:55
MC / MB-S2.135 / Friday 16:15 – 17:55
XA / H-439 / Friday 11:45 – 13:25
XB / H-615 / Friday 11:45 – 13:25
XC / MB-3.255 / Friday 11:45 – 13:25

Objectives

The fundamentals of thermodynamics, including applications of the first and second laws, enthalpy, entropy, and reversible and irreversible processes. The objectives of the course are to present a comprehensive treatment of classical thermodynamics within the framework of an engineering technology curriculum. The course prepares the student to use thermodynamics in applications typically found in professional practice.

Textbook

-“Thermodynamics: An Engineering Approach” by Cengel and Boles, 6th edition (SI), McGraw Hill. Or any other edition. However, the problem numbers for the assignments and tutorials correspond to the 6th edition.

Course Notes:

You will find a course pack for ENGR 251 at the Bookstore. For each course pack purchased Concordia Bookstore will donate $1 to the Red Cross and the Red Crescent to support the campaign against malaria. Another donation of $1 per course pack will be added by your professor. Otherwise, you can also download and print the course notes from the course website.

Additional References

- "Fundamentals of Thermodynamics" by Sonntag, Borgakke, and Van Wylen, 5th edition, John Wiley & Sons, Inc., 1998.

- “Thermodynamics” by K. Wark, 6th edition, McGraw Hill, 1999.

- “Fundamentals of Engineering Thermodynamics”, Moran, M.J. and Shapiro, H.N., 3rd ed., Wiley, 1995.

Graduate Attributes:

This course covers the following graduate attributes,

1. A knowledge base for engineering

Demonstrated competence in university level mathematics, natural sciences, engineering fundamentals, and specialized engineering knowledge appropriate to the program.

2. Problem analysis

An ability to use appropriate knowledge and skills to identify, formulate, analyze, and solve complex engineering problems in order to reach substantiated conclusions.

Practice Evaluation:

Two Quizzes (40% based on assigned problems) 15% (Tentatively Sep 30th and Nov 25th)
Midterm exam 30% (Tentatively Oct. 21, 2011)
Final exam (closed book and notes) 55%

However you must pass the final examination with a 50% grade to pass the course.

ALL exams are mandatory and ALL exams will be counted.

Any missing Quizz might be replaced by an oral theoretical examination (not necessarily covering the same topics as the quiz.)

Main Topics

-Basic Concepts of thermodynamics.

-Properties of pure substances.

-Energy transfer by heat, work and mass.

-The first law of thermodynamics.

-The second law of thermodynamics.

-Entropy

Disclaimer:"In the event of extraordinary circumstances beyond the University's

control, the content and/or evaluation scheme in this course is subjectto change".

Assignments
Chapter / Topics / Problems
1 / Basic concepts of thermodynamics.
Introduction to properties of pure substances. / 1.15C to 1.25C, 1.29C, 1.57, 1.65, 1.82,
2 / Property tables and ideal-gas equation of state. / 3.1 to 3.22, 3.25, 3.26, 3.27,
3.38, 3.52, 3.54, 3.60,
3.73, 3.74, 3.82, 3.93C, 4.60
3 / Energy transfer by heat, work and mass. / 2.18C to 2.21C, 4.1C to 4.3C, 4.6, 4.12, 4.18, 4.25, 4.26, 5.9, 5.14
4 / The first law of thermodynamics – closed systems. / 4.35, 4.36, 4.37, 4.38,
4.64, 4.74
5 / The first law of thermodynamics – open systems. / 5.30, 5.35, 5.50, 5.53, 5.66,
5.75, 5.78, 5.80, 5.118
6 / The second law of thermodynamics, Carnot cycle, heat engines, heat pumps. / 6.1C to 6.4C, 6.9C, 6.21, 6.22, 6.29C, 6.33C, 6.52, 6.80, 6.81, 6.84, 6.95, 6.98, 6.134
7 / Entropy. / 7.35, 7.38, 7.41, 7.89, 7.94,
7.96, 7.104C, 7.110, 7.126, 7.139, 7.141
8 / Applications of thermodynamics to heat engines. / 9.37, 9.38, 9.55, 9.56, 9.84,
9.88, 10.16, 10.18
Tutorials
Chapter / Topics / Problems
1 / Basic concepts of thermodynamics.
Introduction to properties of pure substances. / 1.48, 1.52, 1.60, 1.63
2 / Property tables and ideal-gas equation of state. / 3.28, 3.32, 3.59, 3.71,
3.78, 3.86
3 / Energy transfer by heat, work and mass. / 2.11, 4.7, 4.9, 5.8, 4.30,
4 / The first law of thermodynamics – closed systems. / 4.40, 4.60, 4.62, 4.70
5 / The first law of thermodynamics – open systems. / 5.32, 5.36, 5.49, 5.68,
5.76, 5.117
6 / The second law of thermodynamics, Carnot cycle, heat engines, heat pumps. / 6.19, 6.20, 6.36C, 6.40, 6.78,
6.82, 6.91, 6.96
7 / Entropy. / 7.37, 7.40, 7.42, 7.93, 7.109,
7.128, 7.130
8 / Applications of thermodynamics to heat engines. / 9.31C, 9.37, 9.44, 9.54,
9.92, 9.96, 10.22, 10.17

Some basic classroom rules:

1-Please do not start an email with “Hi”, “Yo”. Start it with a formal salutation.

2-Never complain that work in another, far more important class is stopping you from doing your job in this course.

3-Make sure that your grandparents stop dying, all at once and during exams. Take CPR if necessary.

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