Courses & Units

Advanced Fluid and Thermal Engineering ENG412

Hobart

Introduction

This unit consists of two parts: advanced fluid and thermal. In the fluid part, you will explore the governing equations of incompressible viscous fluid flow in differential form and investigate a range of topics such as laminar and turbulent flow in boundary layers, pipes and channels. Compressible flow theory is introduced and used to solve problems involving compressible shock waves, flow choking, and flows involving friction and heat transfer. You will also learn applied methods in computational fluid dynamics and complete a major design assignment focused on sustainability with an emphasis on efficiency and loss minimisation in fluidic systems.

Thermal engineering will explore the advanced power cycles, refrigeration cycles, gas mixture and psychometrics for evaluating air-conditioning system. The thermal part should develop students’ ability to observe, formulate and solve problems in applied thermodynamics. It also provides an essential foundation for persons intending to continue with postgraduate research and development work in the field.

Summary

Unit name	Advanced Fluid and Thermal Engineering
Unit code	ENG412
Credit points	12.5
College/School	College of Sciences and Engineering School of Engineering
Discipline	Engineering
Coordinator	Doctor Timothy Gale
Delivered By	Delivered wholly by the provider
Level	Advanced

Availability

Location	Study period	Attendance options		Available to
Hobart	Semester 2	On-Campus		International	Domestic

Key

: On-campus
: Off-Campus
: International students
: Domestic students

Key Dates

Study Period	Start date	Census date	WW date	End date
Semester 2	12/7/2021	10/8/2021	30/8/2021	17/10/2021

* The Final WW Date is the final date from which you can withdraw from the unit without academic penalty, however you will still incur a financial liability (refer to How do I withdraw from a unit? for more information).

Unit census dates currently displaying for 2021 are indicative and subject to change. Finalised census dates for 2021 will be available from the 1st October 2020. Note census date cutoff is 11.59pm AEST (AEDT during October to March).

About Census Dates

Learning Outcomes

Design a thermal - fluid system using computer aided engineering tools.
Apply theory and established methods to solve complex fluid mechanics problems.
Apply theoretical and experimental methods to investigate, analyse and critically interpret fluid mechanics results.
Analyse various power and refrigeration cycles and engineering problems involving air-vapor mixtures.
Evaluate the performance of various air-conditioning and industrial thermodynamics systems.

Fee Information

Field of Education	Commencing Student Contribution ^1,3	Grandfathered Student Contribution ^1,3	Approved Pathway Course Student Contribution ^2,3	Domestic Full Fee ⁴
030701	$993.00	$993.00	not applicable	$2,798.00

Available as a Commonwealth Supported Place
HECS-HELP is available on this unit, depending on your eligibility³
FEE-HELP is available on this unit, depending on your eligibility⁴

¹ Please refer to more information on student contribution amounts.
² Please refer to more information on eligibility and Approved Pathway courses.
³ Please refer to more information on eligibility for HECS-HELP.
⁴ Please refer to more information on eligibility for FEE-HELP.

If you have any questions in relation to the fees, please contact UConnect or more information is available on StudyAssist.

Please note: international students should refer to What is an indicative Fee? to get an indicative course cost.

Requisites

Prerequisites

ENG311 AND ENG313

Teaching

Assessment	Examination - invigilated (externally - Exams Office) (40%)\|Project (60%)
Timetable	View the lecture timetable \| View the full unit timetable

Textbooks

Required	Required readings will be listed in the unit outline prior to the start of classes.
Links	Booktopia textbook finder

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