ProgramsU_ArchvBE2014 CombBE/BA 2014Chemical & Biomolecular Engineering / Arts (2013)
Show information forcommencing students (ie. started First Year then).
The course requirements described here apply to persons who commenced their candidature after 1 January, 2013 and persons who commenced their candidature prior to 1 January, 2013 who elect to proceed under 2013 resolutions.
Candidates who commenced prior to 1 January, 2013 may complete the requirements in accordance with the resolutions in force at the time of their commencement, provided that requirements are completed by 1 January, 2018, or later date as the faculty may, in special circumstances, approve.
Candidates who first commenced in 2013, and are re-enrolling for 2014 or later, should be aware that there may have been changes in units of study offered since, Check that units are still available by clicking the unit of study link in the course table. See 2014 version of this course for up to date unit of study list.
For details of relevant resolutions see faculty handbook at sydney.edu.au/handbooks.
Print View | Download as PDF Administrative Information (Fees, ATAR etc.)
Year 1 - Semester 1
Type | CP | CP From |
Core | 6 | CHEM1101: Chemistry 1A |
Core | 6 | ENGG1800: Introduction to Engineering A |
Core | 6 | ENGG1801: Engineering Computing |
Core | 3 | MATH1001: Differential Calculus |
Core | 3 | MATH1002: Linear Algebra |
Year 1 - Semester 2
Type | CP | CP From |
Core | 6 | CHEM1102: Chemistry 1B |
Core | 6 | CHNG1103: Conservation of Mass and Energy |
Core | 3 | MATH1003: Integral Calculus and Modelling |
Core | 3 | MATH1005: Statistical Thinking with Data |
6 | Arts 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
Type | CP | CP From |
Core | 6 | CHNG2801: Fluid Mechanics |
Core | 6 | CHNG2802: Chemical Engineering Modelling and Analysis |
Core | 6 | CHNG2803: Heat and Mass Transfer |
6 | Arts |
Year 2 - Semester 2
Type | CP | CP From |
Core | 6 | CHNG2804: Chemical Engineering Thermodynamics |
Core | 6 | CHNG2805: Engineering for a Sustainable Society |
Core | 6 | CHNG2806: Separation Processes |
6 | Arts |
Year 3 - Semester 1
Type | CP | CP From |
Core | 6 | CHNG3801: Process Plant Design |
Core | 6 | CHNG3802: Process Dynamics and Control |
Core | 6 | CHNG3803: Reaction Engineering |
6 | Arts |
Year 3 - Semester 2
Type | CP | CP From |
Core | 6 | CHNG3805: Particle Processing |
Core | 6 | CHNG3806: Risk Management for Chemical Engineering |
Core | 6 | CHNG3807: Products and Value Chains [not running in 2020] |
6 | Arts |
Year 4 - Semester 1
Type | CP | CP From |
Core | 6 | CHNG4802: Chemical Engineering Design A |
Core | 6 | CHNG4813: Engineering Project A Note: Students with ISWAM of 65% or greater are eligible for Honours pathway and can replace CHNG4813 with CHNG4811. |
Core | 0 | ENGG4000: Practical Experience |
6 | Recommended Chemical & Biomolecular Engineering electives | |
6 | Arts |
Year 4 - Semester 2
Type | CP | CP From |
Core | 6 | CHNG4806: Chemical Engineering Design B |
Core | 6 | CHNG4814: Engineering Project B Note: Students with ISWAM of 65% or greater are eligible for Honours pathway and can replace CHNG4814 with CHNG4812. |
6 | Arts | |
6 | Recommended Chemical & Biomolecular Engineering electives |
Year 5 - Semester 1
Type | CP | CP From |
24 | Select from Arts |
Year 5 - Semester 2
Type | CP | CP From |
18 | Select from Arts | |
Elective | 6 | Electives. Note: One extra unit (6 credit points) 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. |
Honours Thesis
Type | CP | CP From |
Core
|
6 |
CHNG4811: Thesis A |
Core
|
6 |
CHNG4812: Thesis B |
View complete Program Structure |
Note: Students with ISWAM of 65% or greater are eligible for Honours pathway and can replace Engineering Project units CHNG4813 and CHNG4814 with Honours Thesis units CHNG4811 and CHNG4812.
Honours with 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
For Semester 2 calendar dates look up `Semester 1` on the university timetable website at https://web.timetable.usyd.edu.au/calendar.jsp
|
CHNG5003 | Green Engineering | 6 |
Semester 2
For Semester 2 calendar dates look up `Semester 1` on the university timetable website at https://web.timetable.usyd.edu.au/calendar.jsp
|
CHNG5004 | Mineral Processing | 6 |
Semester 2
For Semester 2 calendar dates look up `Semester 1` on the university timetable website at https://web.timetable.usyd.edu.au/calendar.jsp
|
CHNG5005 | Wastewater Engineering | 6 |
Semester 1
For Semester 1 calendar dates look up `Semester 1` on the university timetable website at https://web.timetable.usyd.edu.au/calendar.jsp
|
CHNG5008 | Nanotechnology in Chemical Engineering | 6 |
Semester 2
For Semester 2 calendar dates look up `Semester 1` on the university timetable website at https://web.timetable.usyd.edu.au/calendar.jsp
|
CHNG5601 | Membrane Science | 6 |
Semester 1
For Semester 1 calendar dates look up `Semester 1` on the university timetable website at https://web.timetable.usyd.edu.au/calendar.jsp
|
CHNG5602 | Biophysics and Biosensors | 6 |
Semester 2
For Semester 2 calendar dates look up `Semester 1` on the university timetable website at https://web.timetable.usyd.edu.au/calendar.jsp
|
CHNG5603 | Advanced Industrial Modelling and Analysis | 6 |
Semester 1
For Semester 1 calendar dates look up `Semester 1` on the university timetable website at https://web.timetable.usyd.edu.au/calendar.jsp
|
CHNG5604 | Advanced Membrane Engineering | 6 |
Semester 2
For Semester 2 calendar dates look up `Semester 1` on the university timetable website at https://web.timetable.usyd.edu.au/calendar.jsp
|
CHNG5605 | Bio-Products: Laboratory to Marketplace | 6 |
Semester 2
For Semester 2 calendar dates look up `Semester 1` on the university timetable website at https://web.timetable.usyd.edu.au/calendar.jsp
|
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 Engineering / Arts (2013) |
CP Required: | 240 |
Min FT Duration: | 5.00 Years |
Min PT Duration: | N/A |
Faculty/School: | University Archive |
Years Offered: | 2014, 2013, 2012, 2011 |
Requirements: | The Bachelor of Engineering (Chemical 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 |