Syllabus CH E 343rwerewr this will work pela edont PDF

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CH E 343 Fa19 - CHEMICAL ENGG THERMODYNAMICS Combined LEC SEM Fa19 Fall 2019 Course Weight: 3

Instructor: Fernanda Lopes Motta Office: To be assigned, Phone: To be assigned Email: [email protected] Office Hours: By appointment

Course Description *3.5 (fi 8) (either term, 3-1S-0) Thermodynamics of non-ideal gases and liquids; vapour-liquid equilibrium, thermodynamics of chemical processes and multicomponent systems.

TA contact information TA: Pooria Karami Office: To be assigned, Phone: To be assigned E-mail: [email protected] Office hours: By appointment

Recommended readings Introductory Chemical Engineering Thermodynamics 2nd Ed, J. Richard Elliott, Carl T. Lira

Course Objectives/Outcomes Students who successfully complete the course will be able to: Apply previously learned engineering thermodynamics concepts involving thermodynamic properties, work and heat, and 1st and 2nd law analysis of engineering devices and systems. Use previously taught methods such as steam tables or ideal gas laws to determine properties. Apply multivariable calculus relevant to chemical engineering thermodynamics. Define Gibbs free energy, chemical potential and their relationships. Determine properties of matter for use in thermodynamic analysis using a variety of methods for singlecomponent, multicomponent, ideal and non-ideal substances including the use of correlations, equations of state (EOS), and departures. Apply concepts of phase equilibrium in single-component, multicomponent, ideal and non-ideal systems. Apply concepts of chemical reaction equilibrium. Use the simulation software, e.g., VMGSim to simulate chemical engineering processes by choosing appropriate thermodynamic packages Develop problem solving strategies and practices and apply them to solve problems that may: combine multiple concepts; have more than one possible solution method; be open-ended; require assumptions or finding additional data; require iteration

Grading Title

Weight

Date

Type

Problem Sets

15%

See description

Other

Term Exam 1

20%

2019-10-11

Other

Term Exam 2

20%

2019-11-08

Other

Final Exam

45%

2019-12-11

Other

Additional Information about Assessments Problem Sets Problem sets will be assigned usually on Friday and will be due the following Friday at 4:00 p.m. sharp. Late submissions will be not accepted without prior approval of the instructor. Make sure that your name, course number, submission date and total number of pages are at the top of the front page. Late or sloppy assignments will be assigned a mark of zero. Solutions will be posed on the course web page.

Letter Grading

As per University policy, final letter grades will be based on consideration of absolute achievement and relative performance in the class.

Course Schedule Lecture location: ETLC E1 003 Lecture schedule: Mon Wed Fri 09:00 AM - 09:50 AM Seminar location: ETLC E1 007 Seminar schedule: Tue 03:00 PM - 03:50 PM

Note: The course schedule is subject to change.

Additional Teaching Information Course Outline 1) Introduction and review a) Laws, definitions and mathematical relationships b) First law of Thermodynamics c) Behaviour of pure fluids d) Second law of thermodynamics e) Fluid properties f) Corresponding states g) Equations of State h) Introduction to process modelling software 2) Introduction to Multicomponent Mixtures a) Heat effects b) Phase equilibrium 3) Phase Equilibrium a) Pure substances b) Fugacity c) Activity coefficients d) Phase equilibrium in mixtures e) Vapour-liquid equilibria f) Gas solubility

g) Equilibria involving solids 4) Chemical Equilibrium a) Energy changes with chemical reaction b) Definition of the equilibrium constant c) Heterogeneous systems d) Complex chemical equilibrium

Policy University Policy The University of Alberta is committed to the highest standards of academic integrity and honesty. Students are expected to be familiar with these standards regarding academic honesty and to uphold the policies of the University in this respect. Students are particularly urged to familiarize themselves with the provisions of the Code of Student Behaviour (online at www.governance.ualberta.ca) and avoid any behaviour which could potentially result in suspicions of cheating, plagiarism, misrepresentation of facts and/or participation in an offence. Academic dishonesty is a serious offence and can result in suspension or expulsion from the University. Audio or video recording, digital or otherwise, of lectures, labs, seminars or any other teaching environment by students is allowed only with the prior written consent of the instructor or as a part of an approved accommodation plan. Student or instructor content, digital or otherwise, created and/or used within the context of the course is to be used solely for personal study, and is not to be used or distributed for any other purpose without prior written consent from the content author(s). Policy about course outlines can be found in Course Requirements, Evaluation Procedures and Grading of the University Calendar....