Overview
School of Minerals and Energy Resources Engineering offers a Master of Engineering in Mining Engineering to be accredited* with Engineers Australia and recognised through the Washington Accord to meet consistently national and international benchmarks to ensure the competence of our graduates and provide a guarantee of standing that is independent … For more content click the Read More button below.
This two-year degree is designed for those students with a Bachelor of Engineering degree wanting to enter the engineering profession, enabling them to expand their knowledge and skills in engineering management, acquire an in-depth knowledge of mining engineering specialisation, and gain technical expertise and a basis for international comparability and reciprocal recognition, facilitating the mobility of our engineering graduates.
This degree in Mining Engineering is offered as a stream within the Master of Engineering program (program code 8621) and enables students to specialise, and gain depth of knowledge across a broad range of areas, including project management, mining engineering, geotechnical engineering, environmental management, mineral processing, mine ventilation, mine water and waste management.
* Currently seeking provisional accreditation
The stream is offered as a part of the 8621 program and requires the completion of 96 UoC of courses as follows:
12 UoC Engineering Management18 UoC Disciplinary core courses18 UoC Disciplinary electives12 UoC MEng project – research, advanced disciplinary6 UoC Design, advanced disciplinary30 UoC Advanced disciplinary electives
In addition, as a part of the program, students are required to complete 60 days of Mining Engineering related Industrial Training (IT) to become exposed to industry and professional practice, and to apply their knowledge and skills in a professional setting.
The stream allows students to gain and apply advanced mining engineering knowledge through substantial professional development and postgraduate elective choice across a broad range of areas within Mining Engineering. Students are able to apply this advanced knowledge and develop their research or independent investigation skills via the compulsory 12 UoC project. This project may be a research or capstone-based project.
The Master of Mining Engineering provides advanced study in mining engineering, with various entry points and pathways of study depending on the student’s background.
Learning Outcomes
1.
Graduates will be able to engage in effective professional communication (satisfying Engineers Australia Stage 1 competency 3.2).
This capability is enhanced by the Masters program, particularly via the ME project but also through the management electives, design course and industrial training. Graduates will be able to effectively communicate with each other, with other professional groups, and with the general community, in order to convey the principles and merits of designs and innovation, and of analytical results.
- Scholars
- Professionals
2.
Graduates will be able to exhibit a respect for, and understanding of, professional engineering practice in the mining engineering discipline (satisfying Engineers Australia Stage 1 competencies 1.6 and 3.1).
This capability is enhanced in the Master's program via the ME project, engineering and technical management electives, compulsory design courses, and compulsory industrial training.
- Leaders
- Scholars
- Professionals
- Global citizens
3.
Graduates will be able to demonstrate proficiency in applying engineering techniques, tools, and resources (satisfying Engineers Australia Stage 1 competency 2.2).
This outcome is developed within the Master's program via the compulsory design proficiency course and ME project.
- Leaders
- Scholars
- Professionals
4.
Graduates will be able to demonstrate knowledge of contextual factors impacting the mining engineering discipline (satisfying Engineers Australia Stage 1 competency 1.5).
This capability is primarily attained via the engineering and technical management electives as well as compulsory industrial training.
- Professionals
- Leaders
- Scholars
- Global citizens
5.
Graduates will be able to proficiently apply systematic approaches to carrying out engineering design and projects (satisfying Engineers Australia Stage 1 competencies 2.3, and 2.4).
This outcome is developed within the Master's program via the ME project and compulsory design proficiency course. Graduates will develop an appreciation of, and ability to, engage in research and engineering design.
- Scholars
- Professionals
- Leaders
6.
Graduates will be able to apply of established engineering methods to complex engineering problem solving (satisfying Engineers Australia Stage 1 competency 2.1).
After entry, this capability is enhanced by the Master's program, particularly via the compulsory ME project and core design course, such that students have the ability to analyse, criticise, and undertake design. Graduates will be capable of exercising advanced and creative problem solving skills when applied to unique and unfamiliar problems.
- Scholars
- Professionals
7.
Graduates will be able to demonstrate in-depth as well as broad understanding of the specialist body of knowledge of mining engineering (satisfying Engineers Australia Stage 1 competency 1.3)
This learning outcome is firstly developed within the Master's program following a sufficient foundation from an existing 4-year bachelor's degree, but particularly enhanced via substantial professional development and postgraduate elective choice. Graduates should be thoroughly versed in, and be able to apply, the advanced technologies relevant to their chosen discipline.
- Scholars
- Global citizens
8.
Graduates will be able to discern knowledge development and research directions within the mining engineering discipline (satisfying Engineers Australia Stage 1 competency 1.4).
This is particularly enhanced in the Master's program via postgraduate electives which reflect the current developments and research directions in the relevant discipline.
- Leaders
- Global citizens
- Scholars
- Professionals
Available in Program(s) Single degree program(s) in which this specialisation is available:
Master of Engineering - ME8621 - Engineering
Specialisation Structure
Students must complete 96 UOC.
DISCIPLINARY CORE COURSES18 Units of Credit:
DISCIPLINARY ELECTIVES18 Units of Credit:
ADVANCED DISCIPLINARY CORE COURSE6 Units of Credit:
ADVANCED DISCIPLINARY ELECTIVES30 Units of Credit:
ENGINEERING MANAGEMENT ELECTIVES12 Units of Credit:
RESEARCH CORE COURSES12 Units of Credit:
INDUSTRY TRAINING
Enrolment Disclaimer
Please note that this Handbook is a comprehensive catalogue of our offerings and includes courses that can be taken to satisfy program requirements irrespective as to their availability for a particular year. Availability of courses is best checked using filters on this site or on the class timetable site.
You are responsible for ensuring that you enrol in courses according to your program requirements and by following the advice of your Program Authority. myUNSW enrolment checks that you have met enrolment requirements such as pre-requisites for individual courses but not that you are enrolling in courses that will count towards your program requirements.
You are responsible for ensuring that you enrol in courses according to your program requirements and by following the advice of your Program Authority. myUNSW enrolment checks that you have met enrolment requirements such as pre-requisites for individual courses but not that you are enrolling in courses that will count towards your program requirements.
Pre-2019 Handbook Editions
Access past handbook editions (2018 and prior)