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Unit Overview

Description

This unit provides the foundational thermodynamic knowledge needed for advanced units in the Chemical Engineering major. It covers the following key content—first and second laws of thermodynamics, thermodynamic cycles, ideal gasses, equations of state of real gases; fundamental thermodynamic relations; determination of change in thermodynamic properties, criteria for phase and chemical equilibria; partial molar quantities, fugacity, phase equilibria and phase diagrams in multi-component systems; and chemical reaction equilibria.

Credit
6 points
Offering
(see Timetable)
AvailabilityLocationMode
Semester 1UWA (Perth)Face to face
Details for undergraduate courses
  • Level 2 core unit in the Chemical Engineering major sequence
Outcomes

Students are able to (1) identify how thermodynamic cycles can be used for production of work from energy and their use as a basis for refrigeration systems; (2) use equations of state for real gases to obtain relevant thermodynamic state properties; (3) relate measured, fundamental and derived thermodynamic properties to construct hypothetical paths to calculate the change in a desired thermodynamic property between two states; (4) determine the thermodynamic properties of species in mixtures and the criteria that govern the phase equilibrium and chemical reaction equilibrium; (5) apply phase equilibrium analyses to calculate how species distribute among phases that are coexisting; and (6) make use of equilibrium analyses to determine the extent to which product syntheses are favoured in a particular chemical reaction given specific chemical compositional constraints.

Assessment

Indicative assessments in this unit are as follows: (1) quizzes; (2) assignments; and (3) a final examination. Further information is available in the unit outline.



Student may be offered supplementary assessment in this unit if they meet the eligibility criteria.

Unit Coordinator(s)
Professor Zach Aman
Unit rules
Prerequisites

Enrolment in
Bachelor of Engineering (Honours) or an associated Combined Degree
and Successful completion of
( ( CHEM1001 Chemistry—Properties and Energetics
or CHEX1001 Chemistry—Properties and Energetics

and CHPR1005 Mass and Energy Balances and MATH1011 Multivariable Calculus
or MATX1011 Multivariable Calculus
) )
or Enrolment in
62520 Master of Low Emission Energy Technologies
Incompatibility
ENSC3006 Chemical Process Thermodynamics
Advisable prior study
CHEM1002 Chemistry—Structure and Reactivity
Contact hours
lectures: 3 hours per week
practical classes: 2 hours per week
Text

Introduction to Chemical Engineering Thermodynamics

8th Edition

By J.M. Smith and Hendrick Van Ness and Michael Abbott and Mark Swihart

ISBN10: 1259696529

ISBN13: 9781259696527

Copyright: 2018

  • The availability of units in Semester 1, 2, etc. was correct at the time of publication but may be subject to change.
  • All students are responsible for identifying when they need assistance to improve their academic learning, research, English language and numeracy skills; seeking out the services and resources available to help them; and applying what they learn. Students are encouraged to register for free online support through GETSmart; to help themselves to the extensive range of resources on UWA's STUDYSmarter website; and to participate in WRITESmart and (ma+hs)Smart drop-ins and workshops.
  • Visit the Essential Textbooks website to see if any textbooks are required for this Unit. The website is updated regularly so content may change. Students are recommended to purchase Essential Textbooks, but a limited number of copies of all Essential Textbooks are held in the Library in print, and as an ebook where possible. Recommended readings for the unit can be accessed in Unit Readings directly through the Learning Management System (LMS).
  • Contact hours provide an indication of the type and extent of in-class activities this unit may contain. The total amount of student work (including contact hours, assessment time, and self-study) will approximate 150 hours per 6 credit points.

Face to face

Predominantly face-to-face. On campus attendance required to complete this unit. May have accompanying resources online.

Online flexible

100% Online Unit. NO campus face-to-face attendance is required to complete this unit. All study requirements are online only. Unit is asynchronous delivery, with NO requirement for students to participate online at specific times.

Online timetabled

100% Online Unit. NO campus face-to-face attendance is required to complete this unit. All study requirements are online only. Unit includes some synchronous components, with a requirement for students to participate online at specific times.

Online Restricted

Not available for self-enrolment. Students access this mode by contacting their student office through AskUWA. 100% Online Unit.

NO campus face-to-face attendance. All study and assessment requirements are online only. Unit includes some timetabled activities, with a requirement for students to participate online at specific times. In exceptional cases (noted in the Handbook) students may be required to participate in face-to-face laboratory classes when a return to UWA’s Crawley campus becomes possible in order to be awarded a final grade.

External

No attendance or regular contact is required, and all study requirements are completed either via correspondence and/or online submission.

Off-campus

Regular attendance is not required, but student attends the institution face to face on an agreed schedule for purposes of supervision and/or instruction.

Multi-mode

Multiple modes of delivery. Unit includes a mix of online and on-campus study requirements. On campus attendance for some activities is required to complete this unit.