Faculty of Engineering

Chemical & Biomolecular / Commerce (2019)


Note: This course version applies only to students first enrolling in 2019.
WARNING: This course version is currently under review and is subject to change.


1. Overview

Course: Chemical & Biomolecular / Commerce (2019)
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

2. Requirements

Summary

In summary the requirements are:

Students must complete 240 credit points as follows:

Engineering (144 credit points):

► 36 credit points of Engineering core units

► The Professional Engagement Program comprising ENGP1000 (0cp), ENGP2000 (0cp) and ENGP3000 (0cp)

► 108 credit points of Chemical stream core units

Commerce (96 credit points):

► 24 credit points of Commerce core units

► A major (48 credit points) from Table A of the Faculty of Commerce

► 12 credit points of OLE

► 12 credit points of elective units from Table A or Table S

The handbook rules governing this degree are as follows:

(a) For all Bachelor of Engineering combined degrees a candidate must complete 240 credit points and satisfy any additional requirements specified.

(b) Where the requirements specified in the following clauses account for less than the total required credit, candidates must complete additional units of study from the tables relevant to the Bachelor of Engineering as may be necessary to satisfy the requirements of the degree.

To qualify for the award of the combined degree:

Requirements for the Bachelor of Engineering Honours

(a) The units of study that may be taken for the Bachelor of Engineering Honours component of the combined degree are set out in the tables of units of study for the Bachelor of Engineering Honours single degree;

(b) Except where varied by other clauses of these resolutions, all candidates must complete a minimum of 144 credit points comprising:

(i) 36 credit points from the Engineering Core Table, including all required units;

(ii) 108 credit points from the Engineering Stream Core Table pertaining to the specialist stream being undertaken, including all required units;

(c) The Faculty Board may approve, based on appropriate academic justification, a list of approved unit alternatives. These alternatives specify, for particular Engineering stream / combined degree combinations, units within the normal requirements for the Bachelor of Engineering Honours component of the combined degree that can be replaced by specified alternative units that would form part of the normal program for single degree students in that stream.

Requirements for the Bachelor of Commerce

For the Bachelor of Commerce component of a combined degree:

(a) The units of study that may be taken are set out in Table A of The University of Sydney Business School.

(b) Candidates must complete 96 credit points of units of study selected from the Table of Undergraduate Units of Study from The University of Sydney Business School including:

(i) any required degree core units as set out in Table A of the University of Sydney Business School; and

(ii) a major (48 credit points) or a 3-year program with an embedded major (except for the Professional Accounting Program) from Table A of the University of Sydney Business School; and

(iii) 12 credit points of units of study in the Open Learning Environment as listed in Table O; and

(iv) where appropriate, additional electives from Table A of the University of Sydney Business School or Table S;

(v) If enrolled in a stream, complete the requirements for the stream as specified in Table A of the University of Sydney Business School.

Dalyell Scholars Program

Students in the Dalyell Scholars program can review the Dalyell Canvas page for information on fitting the program into their degree:

https://canvas.sydney.edu.au/courses/7156/pages/enrolment-options-for-dalyell-scholars

Advanced units in Maths and Science

Most units of study offered by the Science Faculty on the list of core requirements can be replaced by an equivalent advanced level unit; subject to prerequisite conditions (as required by the Faculty of Science) being met. Students considering doing advanced options should seek advice from their department before enrolling.

Study Abroad

Students undertaking Study Abroad in a particular year of their degree must enrol in the appropriate International Exchange Program units of study as an alternative to a semester`s standard units.

Permission from the relevant Head of School must be sought prior to enrolling in exchange units of study.

Faculty Resolutions

Details of relevant Faculty resolutions are available via the university handbook site at: http://sydney.edu.au/handbooks/

3. Semesters

Year 1 - Semester 1

Type CP CP From
6 Select from CHEM1111: Chemistry 1A
6 Select from BUSS1000: Future of Business


Note: You must complete BUSS1000 in your first semester of enrolment
3 Select from MATH1021: Calculus of One Variable
3 Select from MATH1002: Linear Algebra
6 Select from ENGG1801: Engineering Computing
0 Select from ENGP1000: Professional Engagement Program 1


Note: All students must enrol in ENGP1000 in their first semester of enrolment.

New ENGP units will be in place from 2021. You can find more information at https://canvas.sydney.edu.au/courses/2806/pages/professional-engagement-program-pep-2021-changes

Note: From 2024, 3cp Math units are replaced by new 6cp units MATH1061 and MATH1062. Students who have not yet completed all 3cp Math units can use this interactive tool on Canvas for enrolment advice: https://canvas.sydney.edu.au/courses/2806/pages/mathematics-changes-in-2024

Year 1 - Semester 2

Type CP CP From
6 Select from CHEM1112: Chemistry 1B
3 Select from MATH1023: Multivariable Calculus and Modelling
6 Select from CHNG1103: Conservation of Mass and Energy
6 Select from BUSS1020: Quantitative Business Analysis
3 Select from MATH1004: Discrete Mathematics


Note: Students in BE(Hons)/BCom take BUSS1020 in place of BE(Hons) core unit MATH1005. In the spare 3 cp slot, students are advised to take MATH1004.

Note: From 2024, 3cp Math units are replaced by new 6cp units MATH1061 and MATH1062. Students who have not yet completed all 3cp Math units can use this interactive tool on Canvas for enrolment advice: https://canvas.sydney.edu.au/courses/2806/pages/mathematics-changes-in-2024

Year 2 - Semester 1

Type CP CP From
6 Select from CHNG2803: Heat and Mass Transfer
6 Select from CHNG2802: Chemical Engineering Modelling and Analysis
6 Select from CHNG2801: Fluid Mechanics
6 Select from ENGG1111: Integrated Engineering 1

Year 2 - Semester 2

Type CP CP From
6 Select from CHNG2806: Separation Processes
2 Select from ENGG2111: Integrated Engineering 2
6 Select from CHNG2804: Chemical Engineering Thermodynamics
6 Select from BUSS1030: Accounting, Business and Society
0 Select from ENGP2000: Professional Engagement Program 2


Note: New ENGP units will be in place from 2021. You can find more information at https://canvas.sydney.edu.au/courses/2806/pages/professional-engagement-program-pep-2021-changes
6 Select from CHNG2805: Engineering for a Sustainable Society


Note: CHNG1106 replaces CHNG2805 from 2021.

Year 3 - Semester 1

Type CP CP From
6 Select from CHNG3803: Reaction Engineering
6 Select from CHNG3802: Process Dynamics and Control
6 Select from BUSS2000: Leading and Influencing in Business
6 Select from CHNG3805: Particle Processing

Year 3 - Semester 2

Type CP CP From
6 Select from Unit Block:
Commerce Units
6 Select from CHNG3806: Risk Management for Chemical Engineering
6 Select from CHNG3804: Biochemical Engineering
6 Select from CHNG3801: Process Plant Design

Year 4 - Semester 1

Type CP CP From
2 Select from ENGG3111: Integrated Engineering 3
18 Select from Unit Block:
Commerce Units
6 Select from CHNG4811: Thesis A

Note: 1. Combined degree students may choose to take Chemical Engineering Design A & B in the same year as Engineering Project/Honours Thesis, or separately across years 4 and 5 as preferred.

2. Top students may apply to undertake industry-based projects under the Major Industry Placement Scheme. MIPPS students take a single 24 credit points unit (CHNG4203) in place of Honours Thesis Units plus Chemical Engineering Design A and the 6 credit point Recommended Chemical and Biomolecular Electives. See Streams/Majors tab for more details of MIPPS. 12 credit points (two units) from the `Depth` units of study should also be taken in either first or second semester.

Year 4 - Semester 2

Type CP CP From
18 Select from Unit Block:
Commerce Units
6 Select from CHNG4812: Thesis B

Year 5 - Semester 1

Type CP CP From
2 Select from ENGG4111: Integrated Engineering 4
12 Select from Unit Block:
Commerce Units
6 Select from CHNG4802: Chemical Engineering Design A
0 Select from ENGP3000: Professional Engagement Program 3


Note: New ENGP units will be in place from 2021. You can find more information at https://canvas.sydney.edu.au/courses/2806/pages/professional-engagement-program-pep-2021-changes

Year 5 - Semester 2

Type CP CP From
18 Select from Unit Block:
Commerce Units
6 Select from CHNG4806: Chemical Engineering Design B

4. Pathways

Alternate Thesis Pathway : Major Industrial Project Placement Scheme (MIPPS)

Type CP CP From
Core
24 CHNG4203: Major Industrial Project

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

5. Unit Blocks

Block 1 - Engineering Core (Min CP: 33,Max CP: 36)

Unit Code Unit Name CP Sessions Offered
AMME4010 Major Industrial Project 24 Semester 1
Semester 2
AMME4111 Thesis A 6 Semester 1
Semester 2
AMME4112 Thesis B 6 Semester 1
Semester 2
CHNG4203 Major Industrial Project 24 Semester 1
Semester 2
CHNG4811 Thesis A 6 Semester 1
Semester 2
CHNG4812 Thesis B 6 Semester 1
Semester 2
CIVL4022 Thesis A 6 Semester 1
Semester 2
CIVL4023 Thesis B 6 Semester 1
Semester 2
ELEC4712 Thesis A 6 Semester 1
Semester 2
ELEC4713 Thesis B 6 Semester 1
Semester 2
ELEC4714 Major Industrial Project 24 Semester 1
Semester 2
ENGG1111 Integrated Engineering 1 6 Semester 1
ENGG2111 Integrated Engineering 2 2 Semester 1
Semester 2
Int February
ENGG3111 Integrated Engineering 3 2 Semester 1
Semester 2
ENGG4111 Integrated Engineering 4 2 Semester 1
ENGP1000 Professional Engagement Program 1 0 Semester 1
Semester 2
ENGP2000 Professional Engagement Program 2 0 Semester 1
Semester 2
ENGP3000 Professional Engagement Program 3 0 Semester 1
Semester 2
MATH1002 Linear Algebra 3 Semester 1
Semester 2
Summer Main
MATH1004 Discrete Mathematics 3 Semester 2
Summer Main
MATH1005 Statistical Thinking with Data 3 Semester 1
Semester 2
Int January
MATH1021 Calculus of One Variable 3 Semester 1
Semester 2
MATH1023 Multivariable Calculus and Modelling 3 Semester 1
Semester 2
MATH1902 Linear Algebra (Advanced) 3 Semester 1
MATH1905 Statistics (Advanced) 3 Semester 2
MATH1921 Calculus of One Variable (Adv) 3 Semester 1
MATH1923 Multivariable Calculus and Modelling (Adv) 3 Semester 2

Note: Complete a minimum of 36cp including:

- ENGP1000 (0cp), ENGP2000 (0cp) and ENGP3000 (0cp)

- Exactly 12cp of Integrated Engineering units comprising ENGG1111 (6cp), ENGG2111 (2cp), ENGG3111 (2cp) and ENGG4111 (2cp)

- 9 cp of MATH1xxx units: MATH1021 Calculus of One Variable (3cp) AND MATH1002 Linear Algebra (3cp) AND MATH1023 Multivariable Calculus and Modelling (3cp)

- Students in the BE(Hons)/BCom take BUSS1020 (6cp) in place of MATH1005 (3cp). MATH1004 should be taken in the spare 3 cp slot.

- A minimum of 12cp of (see note 1) from either AMME4111-4112 Thesis A & B (6cp+6cp) OR CHNG4811-CHNG4812 Thesis A & B (6cp+6cp) OR CIVL4022-4023 Thesis A & B (6cp+6cp) OR ELEC4712-4713 Thesis A & B (6cp+6cp) OR AMME4010 Major Industrial Project (24cp) OR CHNG4203 Major Industrial Project (24cp) OR ELEC4714 Major Industrial Project (24cp)

Note 1. All Thesis A units are mutually prohibited (meaning that only one can be completed), and all Thesis B units have the associated Thesis A unit as a pre-requisite. Students may undertake only the Thesis units relevant to their stream.

Block 2 - CBE Core (Min CP: 108,Max CP: 108)

Unit Code Unit Name CP Sessions Offered
CHEM1111 Chemistry 1A 6 Semester 1
Semester 2
Int January
CHEM1112 Chemistry 1B 6 Semester 1
Semester 2
Int January
CHEM1911 Chemistry 1A (Adv) 6 Semester 1
CHEM1912 Chemistry 1B (Adv) 6 Semester 2
CHNG1103 Conservation of Mass and Energy 6 Semester 2
CHNG2801 Fluid Mechanics 6 Semester 1
CHNG2802 Chemical Engineering Modelling and Analysis 6 Semester 1
CHNG2803 Heat and Mass Transfer 6 Semester 1
CHNG2804 Chemical Engineering Thermodynamics 6 Semester 2
CHNG2805 Engineering for a Sustainable Society 6 Semester 2
CHNG2806 Separation Processes 6 Semester 2
CHNG3801 Process Plant Design 6 Semester 2
CHNG3802 Process Dynamics and Control 6 Semester 1
CHNG3803 Reaction Engineering 6 Semester 1
CHNG3804 Biochemical Engineering 6 Semester 2
CHNG3805 Particle Processing 6 Semester 1
CHNG3806 Risk Management for Chemical Engineering 6 Semester 2
CHNG4802 Chemical Engineering Design A 6 Semester 1
CHNG4806 Chemical Engineering Design B 6 Semester 2
ENGG1801 Engineering Computing 6 Semester 1
Int January

Block 3 - Commerce Core (Min CP: 24,Max CP: 24)

Unit Code Unit Name CP Sessions Offered
BUSS1000 Future of Business 6 Semester 1
Semester 2
BUSS1020 Quantitative Business Analysis 6 Semester 1
Semester 2
BUSS1030 Accounting, Business and Society 6 Semester 1
Semester 2
BUSS2000 Leading and Influencing in Business 6 Semester 1
Semester 2

Note: You must complete BUSS1000 in your first semester of enrolment.

Block 6 - Commerce Units (Max CP: 72)

Note: For the Bachelor of Commerce component, students are required to complete a total of 96 credit points of Commerce Table A units as listed in the handbook of the Business School, including 24 credit points of core units, a major or program from Table A and 12 credit points of OLEs. See Faculty handbooks at http://sydney.edu.au/handbooks