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#
Sustainability and Environmental Engineering

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Unit of study table

## Master of Professional Engineering (Sustainability and Environmental Engineering) |
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To qualify for the award of the Master of Professional Engineering in this specialisation, a candidate must complete 144 credit points, including: | |||

(a) 108 credit points of Core units of study | |||

(b) ENGG5217 Practical Experience | |||

(c) A minimum of 12 and a maximum of 24 credit points of Project units or Research pathway units of study | |||

(d) A minimum of 18 credit points of Specialist Elective units of study (reduced to 12 credit points if undertaking the Research pathway) | |||

(e) A maximum of 6 credit points of Elective units of study |

Unit of study |
Credit points |
A: Assumed knowledge P: Prerequisites C: Corequisites N: Prohibition |
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## Core units |
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## Year one |
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AMME9261Fluid Mechanics 1 |
6 | A Students are expected to be familiar with first year basic maths: integral calculus, differential calculus and linear algebraN AMME5200 |

CHNG9000Chemical Engineering for Scientists |
6 | A University level mathematics, calculus, linear algebra and statistics |

CHNG9103Conservation of Mass and Energy |
6 | A University level mathematics, calculus, linear algebra and statisticsN CHNG1103 OR CHNG5707 |

CHNG9201Fluid Mechanics |
6 | A Calculus, Computations (Matlab, Excel), Mass and Energy BalancesN CHNG5701 OR CHNG2801 |

CHNG9203Heat and Mass Transfer |
6 | A Ability to understand basic principles of physical chemistry, physics and mechanics. Ability to use mathematics of calculus (including vector calculus) and linear algebra, and carry out computations with MATLAB and MS EXCEL. Ability to read widely outside of the technical literature, and to synthesise arguments based on such literature. Ability to write coherent reports and essays based on qualitative and quantitative informationN CHNG2803 OR CHNG5703 |

CHNG9206Separation Processes |
6 | A Mass and energy balances, physical chemistry, physicsN CHNG2806 OR CHNG5706 |

CIVL9010Environmental Engineering |
6 | A Strong calculus knowledge and substantial report writing skills are recommended for success in this subject, as well as the ability to program in MATLAB. Basic understanding of structural mechanics is also an advantageN CIVL2010 |

ENGG9810Introduction to Engineering Computing |
6 | N ENGG9801 or ENGG1801 or ENGG1810 or INFO1110 or INFO1910 or INFO1103 or INFO1903 or INFO1105 or INFO1905 or COSC1003 |

PHYS5034Life Cycle Analysis |
6 | Minimum class size of 5 students. |

Note: Students should select either AMME9261 Fluid Mechanics 1 or CHNG9201 Fluid Mechanics | ||

## Year two |
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AMME9262Introduction to Thermal Engineering |
6 | A Students are expected to be familiar with basic, first year, integral calculus, differential calculus and linear algebraN AMME5200 |

CHNG9204Chemical Engineering Thermodynamics |
6 | A Calculus, linear algebra, numerical methods, computational tools (Matlab, Excel), basic mass and energy balances, heat transfer, mass transfer, momentum (from fluid mechanics), reaction balancesN CHNG2804 OR CHNG5704 |

CHNG9301Process Plant Design |
6 | A CHNG9201 and CHNG9202 and CHNG9203 and CHNG9204 and CHNG9206N CHNG5801 |

CHNG9302Process Dynamics and Control |
6 | A CHNG9202. Enrolment in this unit of study assumes that all core chemical engineering units in second year have been successfully completedN CHNG5802 |

CHNG9305Particle Processing |
6 | A CHNG9201 and CHNG9202 and CHNG9204. Mass and energy balances, physical chemistry, physicsN CHNG3805 OR CHNG5805 |

CIVL5320Engineering for Sustainable Development |
6 | P CIVL3310 OR CIVL9310 |

CIVL9310Humanitarian Engineering |
6 | |

ENGG5204Engineering Professional Practice |
6 | A Competences and experience in engineering obtained during an accepted engineering degree |

Note: Students should select either AMME9262 Thermal Engineering 1 or CHNG9204 Chemical Engineering Thermodynamics. | ||

## Year three |
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ENGG5102Entrepreneurship for Engineers |
6 | A Some limited industry experience is preferred but not essentialN ELEC5701 |

ENGG5103Safety Systems and Risk Analysis |
6 | |

ENGG5202Sustainable Design, Eng and Mgt |
6 | A General knowledge in science and calculus and understanding of basic principles of chemistry, physics and mechanics |

CHNG9306Risk Management for Chemical Engineering |
6 | A CHNG9201 and CHNG9202 and CHNG9203 and CHNG9204 and CHNG9206. Mass and energy balances, physical chemistry, physicsN CHNG3806 OR CHNG5806 |

ENGG5217Practical Experience |
0 | N ENGP1000 OR ENGP2000 OR ENGP3000 OR ENGG4000 OR CHNG5205 OR AMME5010Students should have completed one year of their MPE program before enrolling in this unit. |

Note: Students should select either ENGG5103 Safety Systems and Risk Analysis or CHNG9306 Risk Management for Chemical Engineering | ||

## Specialist elective units |
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Candidates must complete a minimum of 18 credit points from the following Specialist Elective units of study: | ||

AFNR5801Climate Change: Process, History, Issues |
6 | A A basic understanding of climate change processes and issues |

CHNG5003Green Engineering |
6 | A Completion of 72 cp in science, engineering or equivalent SUCH3003N |

CHNG5004Particles and Surfaces |
6 | A Enrolment in this unit of study assumes that students have acquired knowledge equivalent to CHNG3801 AND CHNG3802 AND CHNG3803 AND CHNG3805 AND CHNG3806 |

CHNG5005Wastewater Engineering |
6 | A Knowledge of mass and energy balances, mathematics, process design, biochemical processes, and particle mechanics at a level typical of an undergraduate degree in chemical engineering. Assumed knowledge is equivalent to material covered in CHNG1103 AND CHNG2801 AND CHNG2802 AND CHNG3803 AND CHNG3804 AND CHNG3805 |

CHNG5006Advanced Wastewater Engineering |
6 | A General knowledge of wastewater treatment and the range of technologies currently used (equivalent to CHNG5005) OR the principles of biochemical engineering and their application in engineering (equivalent to CHNG3804) |

CHNG5008Nanotechnology in Chemical Engineering |
6 | A 12cp CHEM2xxx |

CHNG5601Membrane Science |
6 | |

CHNG5604Advanced Membrane Engineering |
6 | A The physics and electrochemistry of synthetic and cellular membranes. Knowledge of membrane manufacture, membrane separation processes and membrane characterisation and monitoring. Assumed knowledge is equivalent to CHNG5601 |

CIVL5351Geoenvironmental Engineering |
6 | |

CIVL5670Reservoir, Stream and Coastal Engineering |
6 | A (CIVL3612 OR CIVL9612) AND MATH2061 |

CIVL6665Advanced Water Resources Engineering |
6 | A CIVL3612 OR CIVL9612N CIVL5665 |

ELEC5206Sustainable Energy Systems |
6 | A A background in power electronics converters and control theory such as that covered in ELEC3204/9204 and ELEC3304/9304 is assumed |

## Elective units |
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Candidates may complete a maximum of 6 credit points from the following Elective units of study: | ||

CHNG5001Process Systems Engineering |
6 | A 1000 level physics and mathematics (differential equations). Use of mathematical and/or computer-based modelling tools and techniques. Feedback control concepts and principles as taught in CHNG3802/CHNG9302 or similar courses. Students who are unsure about meeting these requirements should contact the unit coordinator for adviceThis unit of study is for Masters students and can be selected as an elective by 4th year students. |

CHNG5006Advanced Wastewater Engineering |
6 | A General knowledge of wastewater treatment and the range of technologies currently used (equivalent to CHNG5005) OR the principles of biochemical engineering and their application in engineering (equivalent to CHNG3804) |

CIVL5670Reservoir, Stream and Coastal Engineering |
6 | A (CIVL3612 OR CIVL9612) AND MATH2061 |

CIVL9612Fluid Mechanics |
6 | A CIVL9201 AND CIVL9611 AND (ENGG9802 OR CIVL9802). This unit of study follows on from Fluid Mechanics CIVL9611, which provides the essential fundamental fluid mechanics background and theory, and is assumed to be known and fully understood |

CIVL9614Hydrology |
6 | A (CIVL9802 or ENGG9802) AND CIVL9612 AND MATH2061P CIVL9611 |

CSYS5010Introduction to Complex Systems |
6 | |

INFC7000Inventing the Future |
6 | A Students are expected to be experienced in their own discipline at a postgraduate levelStudents must be able to start in the first week and commit to the full semester. Students must be at a postgraduate level within their own faculty. An application form will be required to be completed to ensure appropriate fit for students to this style of Unit. The Unit is designed for high achieving students and is not suitable for all students. The application form is designed to ensure students who undertake this unit are suitable for such a program. |

MECH9261Fluid Mechanics 2 |
6 | A Linear Mathematics, Vector Calculus, Differential Equations and Fourier SeriesP AMME9261 or AMME9200N MECH8261 |

## Project units |
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All candidates are required to complete a minimum of 12 credit points of Project or Research units during the final year of study. | ||

Candidates achieving an average mark of 70% or higher are eligible for the Extended Capstone Project. | ||

Extended Capstone Project candidates take Capstone Project units CHNG5020 and CHNG5022 (total 18 cp) in place of Capstone Project CHNG5020, CHNG5021 and 6 cp of elective units, or CIVL5020 and CIVL5022 (total 18 cp) in place of CIVL5020 and CIVL5021 and 6 credit points of elective units. | ||

CHNG5020Capstone Project A |
6 | A (CHNG9301 OR CHNG5801) AND (CHNG9302 OR CHNG5802) AND (CHNG9303 OR CHNG5803) AND (CHNG9305 OR CHNG5805) AND (CHNG9306 OR CHNG5806)P 96 cp from MPE degree program or 48 cp from the MPE(Accel) program or 24 cp from the ME program (including any credit for previous study)N CHNG5222 OR CHNG5223 OR CHNG5205 |

CHNG5021Capstone Project B |
6 | A Enrolment in this unit of study assumes that Capstone Project A has been successfully completedC CHNG5020N CHNG5022 OR CHNG5222 OR CHNG5223 OR CHNG5205 |

CHNG5022Capstone Project B Extended |
12 | P 24 credit points in the Master of Engineering and WAM >=70, or 96 credit points in the Master of Professional Engineering and WAM >=70, or 48cp from MPE(Accel) program and WAM >=70C CHNG5020N CHNG5021 OR CHNG5222 OR CHNG5223Permission required for semester 1 or 2 based on achievement in Capstone Project A and taking other program requirements into consideration. |

CIVL5020Capstone Project A |
6 | P 96 cp from MPE degree program or 48 cp from the MPE(Accel) program or 24 cp from the ME program (including any credit for previous study)N CIVL5222 OR CIVL5223 |

CIVL5021Capstone Project B |
6 | C CIVL5020N CIVL5222 OR CIVL5223 OR CIVL5022 |

CIVL5022Capstone Project B Extended |
12 | P 24 credit points in the Master of Engineering and WAM >=70 or 96 credit points in the Master of Professional Engineering and WAM >=70 or 48cp from MPE(Accel) program and WAM >=70N CIVL5021 OR CIVL5222 OR CIVL5223 |

## Research pathway |
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Candidates achieving an average mark of 75% or higher are eligible for the Research Pathway. | ||

Research pathway candidates take Dissertation units CHNG5222 and CHNG5223 (total 24 cp) or CIVL5222 and CIVL5223 (total 24 cp) in place of Capstone Project units and 12 cp of elective or specialist elective units. | ||

CHNG5222Dissertation A |
12 | N ENGG5220 OR ENGG5221 OR CHNG5020 OR CHNG5021 OR CHNG5022In order to enrol in a project, students must first secure an academic supervisor in an area that they are interested. The topic of your project must be determined in discussion with the supervisor. The supervisor can come from any of the Engineering Departments, however, they need to send confirmation of their supervision approval to the Postgraduate Administrator. |

CHNG5223Dissertation B |
12 | C CHNG5222N ENGG5220 OR ENGG5221 OR CHNG5020 OR CHNG5021 OR CHNG5022In order to enrol in a project, students must first secure an academic supervisor in an area that they are interested. The topic of your project must be determined in discussion with the supervisor. The supervisor can come from any of the Engineering Departments, however, they need to send confirmation of their supervision approval to the Postgraduate Administrator. |

CIVL5222Dissertation A |
12 | N CIVL5020 OR CIVL5021 OR CIVL5022In order to enrol in a project, students must first secure an academic supervisor in an area that they are interested. The topic of your project must be determined in discussion with the supervisor. The supervisor can come from any of the Engineering Departments, however, they need to send confirmation of their supervision approval to the Postgraduate Administrator. |

CIVL5223Dissertation B |
12 | N CIVL5020 OR CIVL5021 OR CIVL5022In order to enrol in a project, students must first secure an academic supervisor in an area that they are interested. The topic of your project must be determined in discussion with the supervisor. The supervisor can come from any of the Engineering Departments, however, they need to send confirmation of their supervision approval to the Postgraduate Administrator. |

## ESIPS-MIPPS (Engineering Sydney Industry Placement Scheme) |
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ESIPS candidates take CHNG5205 Major Industrial Project Placement (24 credit points) in place of the Engineering Project units (12 credit points) plus two of the electives from the Specialist Units of Study. | ||

CHNG5205Major Industrial Placement Project |
24 | P Passed at least 48 credit points in Master of professional engineering with adequate foundation knowledge in discipline. Students wishing to do this unit of study should contact the Head of School prior to enrolmentN CHNG5020 OR CHNG5021 OR ENGG5217 OR CHNG9402 OR CHNG5112Enrolment by permission only. The students enrolled in this subject should have completed the first year Master of Professional Engineering with specialisation in Chemical and Biomolecular Engineering and a minimum credit average. The candidate will be selected by interview and at the discretion of the Head of School. Students enrolled in this subject are exempted from completing Chemical Engineering Design A (CHNG9402), Capstone Project A and B (CHNG5020 and CHNG5021) and one of the electives from the Specialist Units of Study that students are expected to take in the first semester of the second year. This exemption is granted because students are exposed to the core aspects of these courses through practical exercises undertaken during the MIPPS placement. While undertaking MIPPS, students have a unique opportunity to see and experience the industrial environment around them, in a manner which is not available at University. MIPPS students are required to enroll in Chemical Engineering Design B (CHNG9406) in the following semester. |

## Exchange units |
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With approval of the Program Director, up to 12 credit points of Exchange units may taken in place of other units, towards the requirements of the degree. |