THERMOFLUIDS

EMS2TFD

2020

Credit points: 15

Subject outline

Thermofluids integrates the study of thermodynamics, heat transfer, combustion and fluid mechanics to understand the flow of fluids and efficiency of devices which produce and consume energy. This subject will provide students with a fundamental understanding of both fluid mechanics and thermodynamics fields to equip them to pursue further study in hydraulics and mechanical properties of engineering. Students will use software tools to model, analyse and design typical thermodynamic and fluid mechanics applications.

School: Engineering and Mathematical Sciences (Pre 2022)

Credit points: 15

Subject Co-ordinator: Gokhan Yilmaz

Available to Study Abroad/Exchange Students: Yes

Subject year level: Year Level 2 - UG

Exchange Students: No

Available as Elective: No

Learning Activities: N/A

Capstone subject: No

Subject particulars

Subject rules

Prerequisites: MAT1CDE AND EMS1MS

Co-requisites: N/A

Incompatible subjects: EMS2FLM OR EMS3THD

Equivalent subjects: N/A

Quota Management Strategy: N/A

Quota-conditions or rules: N/A

Special conditions: N/A

Minimum credit point requirement: N/A

Assumed knowledge: N/A

Learning resources

Understanding Hydraulics

Resource Type: Book

Resource Requirement: Prescribed

Author: Hamill, L.

Year: 2011

Edition/Volume: N/A

Publisher: Papermac

ISBN: N/A

Chapter/article title: N/A

Chapter/issue: N/A

URL: N/A

Other description: N/A

Source location: N/A

Career Ready

Career-focused: No

Work-based learning: No

Self sourced or Uni sourced: N/A

Entire subject or partial subject: N/A

Total hours/days required: N/A

Location of WBL activity (region): N/A

WBL addtional requirements: N/A

Graduate capabilities & intended learning outcomes

Graduate Capabilities

Intended Learning Outcomes

01. Apply accurate terminology and principles to describe fluid and thermodynamic systems.

02. Analyse and optimise fluid flow and thermodynamics using real-world system applications.

03. Determine forces and stability of applications using fluid systems.

04. Apply specific software tools to model and simulate fluid and thermodynamic systems.

Bendigo, 2020, Semester 1, Blended

Overview

Online enrolment: Yes

Maximum enrolment size: N/A

Enrolment information: N/A

Subject Instance Co-ordinator: Gokhan Yilmaz

Class requirements

Laboratory ClassWeek: 17 - 22
One 2.00 hours laboratory class per week on weekdays during the day from week 17 to week 22 and delivered via blended.

LectureWeek: 10 - 22
Two 1.00 hour lecture per week on weekdays during the day from week 10 to week 22 and delivered via blended.

WorkShopWeek: 10 - 22
One 2.00 hours workshop per week on weekdays during the day from week 10 to week 22 and delivered via blended.

Assessments

Assessment element	Comments	Category	Contribution	Hurdle	%	ILO*
3 Written Problem Solving Assignments (750-words equivalent total)	N/A	N/A	N/A	No	15	SILO1, SILO2, SILO3
6 Laboratory design and analysis tasks (900-words equivalent)Students demonstrate completed tasks to demonstrators across six 2-hour laboratories.	N/A	N/A	N/A	No	20	SILO2, SILO3, SILO4
One 2-hour written examination (2,000-words equivalent)To pass the subject, a pass in the examination is mandatory.	N/A	N/A	N/A	No	50	SILO1, SILO2, SILO3
5 Online multiple choice quizzes (750-words equivalent total)	N/A	N/A	N/A	No	15	SILO1, SILO2, SILO3

Melbourne (Bundoora), 2020, Semester 1, Blended