Eng.Thermodynamics I (Code: PE200)

1. Pharos University in Alexandria Faculty of Engineering. Petrochemical Department Eng.Thermodynamics I (Code: PE200) Prepared by: Dr. EhssanNassef Email :ehssan.nassef@pua.edu.eg

2. Pre-requisite:Eng.Physics 2: (BE 122) • Lecture: E113. • Tuesday – from 8:30.. to 10:30 A.m • Tut: E122, Wednesday 8:30-10:20 Instructor:Dr.EhssanNassef Email:ehssan.nassef@pua.edu.eg Room: E 128 • Office hours: Sunday from 12:30 to 2:30 • Monday from 12:30 to 2:30 • Thursday: 10:30-12:30 • ………………………………………………………….

3. Course Aim: At the end of this course the students will be well known of the following: • 1-An introduction to Eng Thermo dynamics. • 2- The first law of thermodynamics on steady flow devices. • 3-The properties of the pure substances. • 4- Closed and open system in engineering thermodynamics. • 5- Apply the first law of thermodynamics on both closed and open thermal engineering systems. • 6-Interactions between heat and work done as both will act as a boundary phenomena affects the total energy of the thermal engineering systems. • 7- Apply the first law of thermodynamics on open flow devices (pumps, diffusers, nozzles,……….). Intended Learning outcomes:

4. Intended learning outcomes(ILO,S) A- Knowledge and understanding: • a1Define thermodynamics and energy. • a-2 Identify forms of energy. • a-3 Define closed and open system. • a-4 Extensive and intensive properties. • a-5 Identify heat. and work. • a-6 First law of thermodynamics. • a-7 First law of thermodynamics for closed system. • a-8 Define enthalpy and specific heat. • a- 9 First law of thermodynamics for flow process . • a-10 Identify phase and pure substance. • a-11 Thermodynamic state and state functions. • a-12 Gibbs phase rule. • a-13 Ideal gas equation of state. .

5. b- Intellectual skills • b1Classify open and closed systems. • b-2 Recognize the physical meaning of pressure and temperature. • b- 3 Classify properties. • b-4 Determine the interactions between heat and work done as both will act as boundary . • b-5 Apply the first law of thermodynamics. • b-6 Apply the phase rule. • b-7 Select the correct formula for a given gas. • b -8 Select equation of state. • b- 9 Determine thermodynamics parameters for different engineering parameters. . c1. c2. c3. .

6. C- Professional and practical skills • C-1 Classify thermodynamic system. • c-2 Apply the first law of thermodynamics. • c-3 Determine relation s for ideal gases in terms specific heats and temperature. • c-4 Classify different gas relations and limitations to its use. • c-5 Apply the first law of thermodynamics. • c-6 Distinguish between enthalpy and entropy. .

7. d- General and transferable skills • . d1- Enhance problem solving skills. • d2- Enhance computer skills.

10. Teaching and learning methods - Lectures. • Tutorials • Laboratory Experiments. • -Presentation. Student assessment : A- Procedures used • Assessment (1) Case study. • Assessment (2) Mid tem exam. • Assessment (3) Work sheets. • Assessment (4) three quizzes • Assessment (5) Final written Exam

11. B- Schedule • Assessment 1 , during the semester • Assessment 2 Midterm Week 9 • Assessment 3,4 weeks 7,11,13 • Assessment 5 week 16 C- Weighting of Assessment • four quizzes 10% • Case Study 5% • Midterm Exam 20% • Work sheets+ Attendance +drop quizzes 15% • Final Written Exam 50%

12. List of references • 1- Course notes 1-Introduction to chemical Engineering Thermodynamics six edition ,by J.M Smith and H.C Van Ness,2001. • 2- Required books (text books) • 2. Thermodynamics:An Engineering Approach 5th edition by Yunus A. Çengel and Michael A. Boles ,2007 • 3- Periodicals, Web sites, … etc www.pua.edu.eg