Note: This course version is currently under review and is subject to change.

ProgramsEngENGI (UG)BEHons CombinedBE/BABE/BA to 2022Chemical & Biomolecular / Arts (2022 and earlier) (2015)


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Select plan for Major/Pathway

Year 1 - Semester 1

TypeCPCP From
Core
6CHEM1101: Chemistry 1A


Note:  This unit is discontinued from 2018. Replacement unit is CHEM1111.
Core
6ENGG1800: Introduction to Engineering A
Core
6ENGG1801: Engineering Computing
Core
3MATH1001: Differential Calculus


Note:  This unit is discontinued from 2018. Replacement unit is MATH1021.
Core
3MATH1002: Linear Algebra

Year 1 - Semester 2

TypeCPCP From
Core
6CHEM1102: Chemistry 1B


Note:  This unit is discontinued from 2018. Replacement unit is CHEM1112.
Core
6CHNG1103: Conservation of Mass and Energy
Core
3MATH1003: Integral Calculus and Modelling


Note:  This unit is discontinued from 2018. Replacement unit is MATH1023.
Core
3MATH1005: Statistical Thinking with Data
6Arts


Note:  The Arts component of the combined Engineering/Arts degree requires a minimum of 84 credit points of Arts units of study, including at least 54 credit points at 2nd or 3rd year level, and the completion of an Arts major. Consult the Resolutions for the Combined Engineering/Arts degree in Faculty handbooks for further details.

Year 2 - Semester 1

TypeCPCP From
Core
6CHNG2801: Fluid Mechanics
Core
6CHNG2802: Chemical Engineering Modelling and Analysis
Core
6CHNG2803: Heat and Mass Transfer
6Arts

Year 2 - Semester 2

TypeCPCP From
Core
6CHNG2804: Chemical Engineering Thermodynamics
Core
6CHNG2805: Engineering for a Sustainable Society
Core
6CHNG2806: Separation Processes
6Arts

Year 3 - Semester 1

TypeCPCP From
Core
6CHNG3801: Process Plant Design
Core
6CHNG3802: Process Dynamics and Control
Core
6CHNG3803: Reaction Engineering
6Arts

Year 3 - Semester 2

TypeCPCP From
Core
6CHNG3805: Particle Processing
Core
6CHNG3806: Risk Management for Chemical Engineering
Core
6CHNG3807: Products and Value Chains [not running in 2020]
6Arts

Year 4 - Semester 1

TypeCPCP From
Core
6CHNG4802: Chemical Engineering Design A
Core
6CHNG4811: Thesis A
Core
0ENGG4000: Practical Experience
6Arts
6Recommended Chemical & Biomolecular Engineering electives

Year 4 - Semester 2

TypeCPCP From
Core
6CHNG4806: Chemical Engineering Design B
Core
6CHNG4812: Thesis B
6Recommended Chemical & Biomolecular Engineering electives
6Arts

Year 5 - Semester 1

TypeCPCP From
24Select from
Arts

Year 5 - Semester 2

TypeCPCP From
18Select from
Arts
Elective
6Electives.

Note:  One extra unit (6 credit points) is needed on top of the required 84 credit points of Arts units and the 150 credit points of core and elective Chemical and Biomolecular units in order to make the 240 credit point total. This additional unit may be chosen from Arts, Chemical and Biomolecular electives or elsewhere.

Additional Requirements for Major

TypeCPCP From
Core
24CHNG4203: Major Industrial Project

MIPP students take CHNG4203 Major Industrial Project Placement (24 credit points). This unit replaces regular Honours Thesis units (CHNG4811 and CHNG4812 - 12 credit points) along with CHNG4001 Practical Experience (0 credit points), CHNG4112 Foundation of Chemical Engineering Design A (6 credit points) and Recommended Engineering Electives (6 credit points). Students are admitted to MIPP by school permission only. Applications from Science combined students are taken in the third year of study.

Major Industrial Project Placement (MIPP)

Type CP CP From
Core
24 CHNG4203: Major Industrial Project
View complete Program Structure

Note: MIPP students take CHNG4203 Major Industrial Project Placement (24 credit points). This unit replaces regular Honours Thesis units (CHNG4811 and CHNG4812 - 12 credit points) along with CHNG4001 Practical Experience (0 credit points), CHNG4112 Foundation of Chemical Engineering Design A (6 credit points) and Recommended Engineering Electives (6 credit points). Students are admitted to MIPP by school permission only. Applications from Science combined students are taken in the third year of study.

Block 1 - Recommended Chemical & Biomolecular Engineering electives (Min CP: 12,Max CP: 12)

Unit Code Unit Name CP Sessions Offered
CHNG5001 Process Systems Engineering 6 Semester 2
CHNG5003 Green Engineering 6 Semester 2
CHNG5004 Mineral Processing 6 Semester 2
CHNG5005 Wastewater Engineering 6 Semester 1
CHNG5006 Advanced Wastewater Engineering 6 Semester 2
CHNG5008 Nanotechnology in Chemical Engineering 6 Semester 2
CHNG5601 Membrane Science 6 Semester 1
CHNG5602 Biophysics and Biosensors 6 Semester 2
CHNG5603 Advanced Industrial Modelling and Analysis 6 Semester 1
CHNG5604 Advanced Membrane Engineering 6 Semester 2
CHNG5605 Bio-Products: Laboratory to Marketplace 6 Semester 2
CHNG5606 Advanced Food Processing 6 Semester 2
CHNG5607 Advanced Biochemical Engineering 6 Semester 1

Block 2 - Arts (Min CP: 84,Max CP: 84)

Note: For the Bachelor of Arts component, students are required to complete a total of 84 credit points of Table A units as listed in the handbook of the Faculty of Arts and Social Sciences, including a major from Table A and a minimum 54 credit points of 2000/3000 level units of study. See Faculty handbook at http://sydney.edu.au/handbooks

Course: Chemical & Biomolecular / Arts (2022 and earlier) (2015)
CP Required: 240
Min FT Duration: 5.00 Years
Min PT Duration: N/A
Faculty/School: Faculty of Engineering
Years Offered: 2022, 2021, 2020, 2019, 2018, 2017, 2016, 2015
Requirements: The Bachelor of Engineering (Chemical and Biomolecular) and Bachelor of Arts combined degree requires units of study a total value of 240 credit points, comprising:

* at least 84 credit points of units of study given by the Faculty of Arts for the BE/BA, with at least 54 credit points at 2nd or 3rd year level, and the completion of an Arts major

* core units as prescribed in the BE Specialisation tables for Chemical & Biomolecular Engineering

* 12 credit points from the table of recommended elective units of study for Chemical & Biomolecular Engineering.

Students not meeting the Engineering Honours requirement of an average mark of 65% throughout their degree will be awarded the PASS degree Bachelor of Engineering (Chemical and Biomolecular).

For further details, see Faculty Handbook at http://sydney.edu.au/handbooks/
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