Minia Uuniversity Dept. Of Chemical Engineering Faculty of Engineering
COURSE SPECIFICATION
1. Administrative Information
Course Title : Chemical Engineering Thermodynamic
Code :CHE213
Department offering the course : Chemical Engineering Program on which the course is given : Undergraduate level Department offering the program : Chemical Engineering
Academic year :Second Year
Semester : First semester
Date of specification/revision :2004
Date of approval by Departmental/Faculty : 05/10/2020 Taught hours:
Lecture:4hrs/week Tutorial:2hrs/week Practical: None hrs/week Others: None Total:6hrs/week 2. Overall Aims of the Course
This course is designed to help students to retrieve and apply mathematic basics in problems solution, know principles of thermodynamics, thermodynamic laws for open and closed systems and their applications and Prepare students to calculate work, energy and fluid phase equilibrium data for post courses.
3. Intended Learning Outcomes of the course (ILOs):
a- Knowledge and understanding
Upon completing this course, the student should be able to:
a1 Explain concepts and principles of thermodynamics a2 Illustrate problem solving learning approach
a3 Describe mathematical principle to calculate roots of the equation of state b- Intellectual Skills
Upon completing this course, the student should be able to:
b1 Analyze thermodynamic processes and cycles within the conceptual frameworks of the Zeroth, First and Second laws
b2 Identify equations of state to predict thermodynamic data or/and use thermodynamic tables ,diagrams.
b3 Specify mass and energy balances (First Law) to follow processes c- Professional and practical skills
- N/A
Upon completing this course, the student should be able to:
d- General and transferable skills
Upon completing this course, the student should be able to:
d1 Collaborate effectively within multidisciplinary team.
d2 Use efficiently IT capabilities to search for topics.
d3 Communicate effectively.
d4 Lead and motivate individuals.
Chem. Eng. Course Specification CHE213
2 4. Syllabus
Topics CONTENTS
Topic (1) The first law and basic concepts Topic (2) Volumetric properties of pure fluids
Topic (3) Heat effects
Topic (4) The second law of thermodynamics Topic (5) Thermodynamics properties of fluids
Topic (6) Applications of thermodynamic laws to flow processes.
Topic (7) Vapour-liquid equilibria for ideal and non-ideal mixtures 5. Teaching and Learning Methods:
5.1. Lectures.
5.2. Tutorial.
5.3. Discussions.
5.4. Office hours.
5.5. Self-learning.
6. Students Assessment:
6.1. Students Assessment Methods:
6.1.1. Tutorial 6.1.2. Reports
6.1.3. Mid-term exams 6.1.4. Oral exam
6.1.5. Final-term exam 6.2. Assessment schedule:
6.2.1. Tutorial An assignment every two weeks 6.2.2. Reports Scheduled by the instructor 6.2.3. Mid-term exams Scheduled by the faculty council 6.2.4. Oral exam
6.2.5. Final-term exam Scheduled by the faculty council 6.3. Weighing of assessments:
Semester Work (Tutorials and Reports) 20 % Oral exam 20 %
Final Exam 60 %
Total 100 %
7. List of References:
7.1. Course notes
Student hand out.
7.2. Essential books ( text books ) 1.
2. Yunus A. Gengel, and Robert Turner, "Fundamentals of Thermal-Fluid Sciences", McGraw Hill, ISBN: 0073529257 (2008), 3rd Edition
3. I.M. Kletz, R.M. Rosenberg; (2000). Chemical Thermodynamics, Basic Theory and Methods, J. Wiley.
Chem. Eng. Course Specification CHE213
3
4. Peter Atkins , Julio de Paula, Physical Chemistry textbook, OUP Oxford; Seventh Edition edition (2002)
5. A. S. Negi, S. C. Anand, Textbook of Physical Chemistry, New Age, International, 1985.
7.3. Recommended books
Smith et al, Introduction to Chemical Thermodynamics, McGraw-Hill (2005)
Other Resources/ Facilities of teaching and learning required for achieving the above ILOs:-
a- Facilities used for teaching and learning
1. Teaching aids: White board 2. Computer Simulation Software 3. Lap top and data show
8. We certify that all of the information required to deliver this course is contained in the above specification and will be implemented.
Course Coordinator:
Prof.Dr. Ibrahim A. Ashour
Date:05/10/2020
Head of Department
Prof.Dr. Mohsine Hahseme
Signature ………
Date:
05/10/2020
Chem. Eng. Course Specification CHE213
4
Course Curriculum Map Course title: Chemical Engineering Thermodynamic
Course coordinators: Prof.Dr. Ibrahim A. Ashour Course Aim: This course is designed to
• Help students to retrieve and apply mathematic basics in problems solution, know principles of thermodynamics ,And thermodynamic laws for open and closed systems.
Course code
Intended Learning Outcomes (ILOs)
Topics
Week
# Teaching Methods Assessment
Methods Evidences Knowledge
and understandin
g
Intellectual skills
Professional and practical
skills
General and transferable
skills
CHE213
a1+a2 b1+b2 The first law and basic
concepts 1-3
Lectures + Tutorials +Office hours
Final exam (70%), Mid Term exam (10%), Oral exam 10%, Tutorials, and Reports (10%). Course file, Exam samples,
Regular reports, Assignment a2+a3
Volumetric properties of
pure fluids 4-5 Lectures + Tutorials +Office hours
a1+a2 b2 Heat effects 6-7 Lectures + Tutorials
+Office hours
a1 the second law of
thermodynamics 8-10
Lectures + Tutorials + Office hours
a1 b2+b3
Thermodynamics
properties of fluids 11-13 Lectures + Tutorials +Office hours +self-
learning
Applications of
thermodynamic laws to
flow processes. 14-15
