University of Sydney Handbooks - 2016 Archive

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Engineering unit of study descriptions

ENGG – Engineering unit of study descriptions

ENGG1000 History and Philosophy of Engineering

Credit points: 6 Teacher/Coordinator: Dr Rod Fiford Session: Semester 1,Semester 2 Classes: Lecture 1 hr/week; Tutorial 1 hr/week; Independent research/study 5 hrs/week; E-Learning 2 hrs/week. Assessment: Through semester assessment (100%) Mode of delivery: Normal (lecture/lab/tutorial) day
ENGG1000 is a unique course that aims to provide students with an understanding of the historical development of Engineering with relation to societal expectations of the period. Engineering as a field of study and profession has developed over millennia from simple (yet significant) advances in technology such as the lever and wheel, to modern day examples such as advanced computers, nanomaterials and space flight.
Interaction between human society and Engineers has helped develop and guide the advancement of engineering technology; with society posing problems for Engineers to solve and Engineers developing new technology that changed the course of human history, and helped shape the world we live in.
The general philosophy behind Engineering is that Engineers work to fulfil the needs of society (water, electricity, technological improvements etc.), and as such Engineers are expected to act ethically towards society. The role of Engineers in society will be analysed and discussed from a humanistic perspective, with relation to the current Engineers Australia code of ethics. Other relevant philosophical analyses of Engineering as a skill and profession will also be examined such as, aesthetics, creativity, the epistemology of Engineering and more.
This course will use online resources extensively and help develop research and communication skills of students, whilst providing an overview of the historical significance of Engineers in society, and what it means to be an Engineer.
ENGG1061 Advanced Engineering 1A

Credit points: 6 Teacher/Coordinator: Prof Ron Johnston Session: Semester 1,Semester 2 Classes: Lecture 2 hrs/week; Tutorial 2 hrs/week. Assessment: Through semester assessment (100%) Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
Note: Enrolment by Dean`s invitation for high achieving HSC students (ATAR equivalent score of 98 or higher).
Real engineering in 1st year! The course is designed to introduce Advanced engineering students to the essential generic engineering skills of communication, problem identification and solution, design, teamwork, and understanding of the social, cultural, global, ethical and environment responsibilities of the professional engineer. These skills are pursued through a real world Engineers Without Borders Challenge project in a developing country.
Textbooks
Downling, D., Carew, A., Hadgraft, R./Engineering Your Future/1/2010/978 0 470 81816 9//
ENGG1111 Integrated Engineering 1

Credit points: 6 Teacher/Coordinator: Prof David Lowe Session: Semester 1,Semester 2 Classes: Lecture(2.00 hours per week), Tutorial(2.00 hours per week), Independent Study(4.00 hours per week), Assessment: Through semester assessment (100%) Mode of delivery: Normal (lecture/lab/tutorial) day
Integrated Engineering 1 is an introductory Unit of Study within the Faculty of Engineering and Information Technologies. It aims to provide commencing undergraduate engineering students with an understanding of the nature and diversity of engineering practice and begin the development of a set of intellectual tools for integrating their ongoing personal, academic, and professional development. The unit highlights foundational engineering and professional practice skills, and the application of these skills to real world projects and workplace practice. It demonstrates the role that various professional and academic competencies play in the ability to manage contemporary professional engineering issues. The students are introduced to the Engineers Australia (EA) competency standards as one framework for evaluating their professional development, and students establish a preliminary portfolio which includes a self-assessment of their current understanding and capabilities against this framework. This portfolio will then be maintained and evolved throughout (and ideally beyond) their degree as a way of demonstrating current competencies and planning future development. This component also considers the way in which the diverse elements of their degree integrate together synergistically to establish emergent professional capabilities. In developing knowledge of the discipline, students enhance their capacity for lifelong learning through critical reflection and self-assessment, creating and monitoring career goals as well as buildng a sense of responsibility for their learning. Through case studies, design projects and challenges, students expand their communication skills, develop competency in team-based problem solving and in creating innovative solutions, as well as apply critical thinking and inquiry. The activities encourage the development of research skills, experience of the engineering design process, leading and managing projects, and the significance of ethics, safety and sustainability.
ENGG1800 Engineering Disciplines (Intro) Stream A

Credit points: 6 Teacher/Coordinator: Prof John Kent Session: Semester 1 Classes: Lecture 1 hr/week; Laboratory 3 hrs/week. Assessment: Through semester assessment (60%) and Final Exam (40%) Mode of delivery: Normal (lecture/lab/tutorial) day
This unit gives a brief introduction to a range of specialisations in Engineering including Aeronautical, Biomedical, Chemical, Civil, Mechanical, Electrical and Information Engineering. First-year students have the opportunity to experience aspects of each engineering stream and thus be able to better select which area they wish to pursue in their future studies. There are four Schools in the Faculty and each School will deliver a three-week module covering its specialisations.
School of Chemical and Biomolecular Engineering.
This module enables students to gain an appreciation of the methods in transforming raw materials to value-added products. Students gain an insight into the application of the basic principles of chemistry, mathematics, material and energy balance in assessing and designing processes, operations and maintenance and safety requirements and procedures. This is achieved through a project based activity that involves a paper-based study of a process followed by construction and testing of performance.
School of Civil Engineering.
Introductory lectures in Engineering Economics and Construction Planning, Foundation Engineering, Structural Engineering, Materials, Environmental Engineering. Each student is involved in the erection and dismantling of an 8 metre high steel and timber tower in the Civil Engineering Courtyard. Preliminary lectures related to the tower include safety issues, loading, static analysis, foundation calculations, construction management, engineering drawings and detailing, geometric calculations, and survey measurements. Exercises related to these issues are performed before assembly and disassembly of the tower.
School of Electrical and Information Engineering.
Overview of Electrical Engineering, Basic circuit analysis: circuits, currents and voltages: Power and Energy; Ohms law, KCL, KVL. Resistive circuits: Resistance in series and parallel; voltage divider and current divider circuits. Introduction to digital systems: Basic logic circuit concepts, Synthesis of logic circuits, Sequential logic circuits. Microcomputers: Computer Organisation, Memory types, Digital process control, assembly language and programming. There are laboratory exercises based on the above topics.
School of Aerospace, Mechanical and Mechatronic Engineering (AMME).
AMME has four degree streams: Aerospace, Mechanical, Biomedical and Mechatronics. Two or three of these streams are covered during this module in any year.
¿ Mechanical Engineering demonstrates aspects of mechanical design and manufacturing techniques with a hands-on building task.
¿ Aerospace has a lecture on fundamentals of aircraft design. And a hands-on Design-Build-Test task where students work in small teams to gain an introduction to lightweight structures, aerodynamics and flight stability and control.
¿ Mechatronics covers software control of machines, including basic electronic knowledge with examples, concepts of software and hardware integration. Group based activity is to design and implement a simple mechatronics system using a Mindstorm Lego set.
¿ Biomedical engineering provides a hands-on design project to develop a joint replacement concept. The design process captures inputs such as joint range of motion considerations, biomaterials selection, manufacturing route, design risk analysis.
ENGG1801 Engineering Computing

Credit points: 6 Teacher/Coordinator: Dr Jason Chan Session: Semester 1,Summer Late Classes: Lecture 2 hrs/week; Tutorial 2 hrs/week. Assessment: Through semester assessment (50%) and Final Exam (50%) Mode of delivery: Normal (lecture/lab/tutorial) day
The unit will introduce students to fundamental principles of programming. The language used will be Matlab but the principles taught are readily portable to other languages like C and Java. The unit material will be presented in a manner which will help students to draw a connection between programming constructs and real engineering applications. The unit will use engineering inspired case-studies : especially from Civil, Chemical, Aerospace and Mechanical streams, to motivate new material. There will be a major project which uses programming to solve a real world engineering problem. The extensive Matlab library for visualization will also be introduced. Matlab will cover two-thirds of the unit. The remaining one-third will be devoted to the use of Excel in engineering scenarios. Furthermore, cross integration between Matlab and Excel will also be highlighted.
ENGG1802 Engineering Mechanics

Credit points: 6 Teacher/Coordinator: A/Prof Ahmad Jabbarzadeh, Dr Luming Shen, Dr Peter Cafe Session: Semester 2,Summer Main Classes: Lecture 2 hrs/week; Tutorial 3 hrs/week. Assessment: Through semester assessment (100%) Mode of delivery: Normal (lecture/lab/tutorial) day
The unit aims to provide students with an understanding of and competence in solving statics and introductory dynamics problems in engineering. Tutorial sessions will help students to improve their group work and problem solving skills, and gain competency in extracting a simplified version of a problem from a complex situation. Emphasis is placed on the ability to work in 3D as well as 2D, including the 2D and 3D visualization of structures and structural components, and the vectorial 2D and 3D representations of spatial points, forces and moments. Introduction to kinematics and dynamics topics includes position, velocity and acceleration of a point; relative motion, force and acceleration, momentum, collisions and energy methods.
Textbooks
Meriam, J.L. and Kraige, L.G./Engineering Mechanics, Volume 1, STATICS (SI version)/6th//
ENGG1805 Professional Engineering and IT

Credit points: 6 Teacher/Coordinator: Prof Ron Johnston Session: Semester 1 Classes: Lecture 2 hrs/week; Laboratory 2 hrs/week; Project Work - own time 2 hrs. Assessment: Through semester assessment (100%) Mode of delivery: Normal (lecture/lab/tutorial) day
ENGG1805 aims to introduce students to the fundamental principles that underlie the study of engineering and information technologies. It lays the foundation for later studies, and presents to the students challenges common to a multidisciplinary engineering environment. The subject also provides students with the opportunity to develop an understanding of engineering ethics and of working as a part of a team.
Professional Engineering and IT (6CP) is composed from the following five parts: (a) Introduction to engineering: the engineer as problem solver, critical analysis of greatest engineering achievements and failure. (b) Introduction to common engineering software tools: word processors, project management tools (c) Ethics and workplace health and safety. (d) Testing - concepts of destructive and not destructive tests will be given on samples. (e) "Meet the professionals" - A selection of guest speakers will address students on the most important aspects of the engineering profession. (f) Design Process - The process of design synthesis as an important part of engineering: students will be required to complete an engineering design (from conception, to implementation and testing) maintaining proper lab notes.
Textbooks
ENGG1805 Course Handbook/2014//
ENGG1813 Engineering Critical Thinking

Credit points: 6 Teacher/Coordinator: Dr Kenneth Chung Session: Semester 2 Classes: Lecture 1 hours per week; Workgroup 4 hours per week; Assumed knowledge: IELTS 6.5 Assessment: Through semester assessment (80%) and Final Exam (20%) Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
This unit concentrates on the rigors of communication in an engineering context including technical writing, team work, formal presentations and critical analysis. It is a precursor to ENGG1803 Professional Engineering 1 for students with a non-english speaking background in degrees which have a free elective available to students, and takes the place of one free elective. Students who enrol in this unit in 1st year will defer ENGG1803 Professional Engineering to 2nd year. The Unit concerns critical thinking and Intensive English language (in an engineering context) aimed at building skills and confidence in students so that they better engage in the educational process at Sydney University by:
Enhancing student ability to meet the challenges of study in Engineering in the Australian university context; Intensive focus on the language of Engineering in English; Developing cross-cultural awareness with a focus on consolidating the essential facets and practices in the tradition of science and research-based skills of sound reasoning; Increasing critical thinking capacity and preparing students for engaged enquiry in an Engineering context.
ENGG1850 Introduction to Project Management

Credit points: 6 Teacher/Coordinator: Dr Peter Cafe Session: Semester 1 Classes: Lecture 2 hrs/week; Tutorial 1 hr/week; Laboratory 1 hr/week. Prohibitions: CIVL3805, QBUS2350 Assessment: Through semester assessment (50%) and Final Exam (50%) Mode of delivery: Normal (lecture/lab/tutorial) day
Organisations today are heavily reliant on projects as part of their daily operations. A project is a temporary endeavour undertaken with limited resources to achieve organisational goals that are linked to broader organisational strategies and missions. Project management is therefore the process of planning, scheduling, resourcing, budgeting and monitoring the various phases of a project.
"Introduction to Project Management" is an introductory course that teaches students essential principles and concepts of project management, its application and related technologies. Students will learn about the project organisation, its structure, and role of the project manager, project sponsor and project committee. In addition, students will also learn how to identify business problems that require project-based solutions, how to select and evaluate projects, develop a business case, and manage the project at a basic level.
At completion of the course, students will have a high-level understanding of project management concepts, which equips them with basic technical and managerial skills required for project-based organisations.
Textbooks
Timothy J. Kloppenborg/Contemporary Project Management/3/2015/ISBN-10: 1285433351 ISBN-13: 9781285433356//
ENGG2005 Engineering Studies C

Credit points: 6 Teacher/Coordinator: Mrs Annamaria Brancato Session: Intensive February,Intensive July,Semester 1,Semester 2 Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
Special project specified for individual requirements.
ENGG2062 Engineering Project: Business Plan 2 Adv

Credit points: 6 Teacher/Coordinator: Prof Ron Johnston Session: Semester 1 Classes: Lecture 1 hr/week; Project Work - in class 2 hrs/week; Project Work - own time 6 hrs; Research 4 hrs; Presentation 6 hrs. Prerequisites: Distinction average WAM Assessment: Through semester assessment (100%) Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
This course aims to extend student experience beyond the design and build phase of engineering to the business planning necessary to transform a good idea into a commercial reality. It will provide the opportunity for students to develop a range of skills used by professional engineers in a business environment, including planning, strategy development and assessment, business environment and market analysis together with financial management and resource allocation.
Textbooks
B.R. Barringer and R.D. Ireland/Entrepreneurship: Successfully Launching New Ventures/2nd/2008//
ENGG2850 Introduction to Project Finance

Credit points: 6 Teacher/Coordinator: Dr Michael Harre Session: Semester 1 Classes: Lecture 2 hrs/week; Tutorial 1 hr/week; Laboratory 1 hr/week. Prohibitions: CIVL3812 Assessment: Through semester assessment (100%) Mode of delivery: Normal (lecture/lab/tutorial) day
This is a theory and case study based UoS providing students with a unified approach to the analysis of project value, supported by explicit methods for ranking and selection of projects on the basis of returns and sensitivity. The UoS uses "Project Finance" as a vehicle for descibing the fundamentals of project management financing and contrasts it with "Direct Financing", a more traditional approach to funding projects.
ENGG2851 Data Analytics for Project Management

Credit points: 6 Teacher/Coordinator: Dr Mahendrarajah Piraveenan Session: Semester 1 Classes: Lecture 2 hrs/week; Tutorial 1 hr/week; Laboratory 1 hr/week. Prerequisites: ENGG1850 AND (MATH1001 OR MATH1901) AND (MATH1002 OR MATH1902) AND (MATH1003 OR MATH1903) AND (MATH1005 or MATH1905) Assessment: Through semester assessment (50%) and Final Exam (50%) Mode of delivery: Normal (lecture/lab/tutorial) day
Project Management Data analytics (DA) provides extensive coverage related to examining raw data with the purpose of drawing conclusions about that information. It is used in many industries to allow companies and organization to make better business decisions and in the sciences to verify or disprove existing models or theories. Here, we focus our effort on providing in-depth knowledge and skills to students focusing on inference, process of deriving a conclusion based solely on what is already known by the project manager.
ENGG2852 Project Based Organisational Behaviour

Credit points: 6 Teacher/Coordinator: Dr Ehssan Sakhaee Session: Semester 2 Classes: Lecture 2 hrs/week; Tutorial 1 hr/week; Laboratory 1 hr/week. Prerequisites: ENGG1850 AND PSYC1002 Assessment: Through semester assessment (60%) and Final Exam (40%) Mode of delivery: Normal (lecture/lab/tutorial) day
Project based organisational behaviour focuses on human behaviour in organisational and project based context, with a focus on individual and group processes and actions. It involves an exploration of organisational and managerial processes in the dynamic context of organisation and is primarily concerned with human implications of project based activity. In this UOS, we offer a succinct, lively and robust introduction to the subject of organizational behaviour. It aims to encourage critical examination of the theory of organisational behaviour whilst also enabling students to interpret and deal with real organisational problems in project management and combines relative brevity with thorough coverage and plentiful real-world examples.
ENGG2855 Project Quality Management

Credit points: 6 Teacher/Coordinator: Sabina Cerimagic Session: Semester 2 Classes: Lecture 2 hrs/week; Laboratory 1 hr/week; Tutorial 1 hr/week. Prerequisites: ENGG1850 Assessment: Through semester assessment (100%) Mode of delivery: Normal (lecture/lab/tutorial) day
Project Quality Management offers a specific, succinct, step-by-step project quality management process. It offers an immediate hands-on capability to improve project implementation and customer satisfaction in any project domain and will help maintain cost and schedule constraints to ensure a quality project. This UOS introduces tools and techniques that implement the general methods defined in A Guide to the Project Management Body of Knowledge-Third Edition (PMBOK) published by the Project Management Institute (PMI), and augment those methods with more detailed, hands-on procedures that have been proven through actual practice. This UOS is aimed at providing students an explicit step-by-step quality management process, along with a coherent set of quality tools organised and explained according to their application within this process that can be applied immediately in any project context. It further introduces a Wheel of Quality that codifies in one complete image the contributing elements of contemporary quality management. It also help in understanding the process for establishing a new quality tool, the pillar diagram, that provides a needed capability to identify root causes of undesirable effects.
ENGG3062 Technology Education (Advanced)

Credit points: 6 Teacher/Coordinator: Mr John Currie Session: Semester 2 Classes: Lecture 1 hr/week; Project Work - in class 2 hrs/week; Project Work - own time 6 hrs; Research 4 hrs; Presentation 6 hrs. Prerequisites: Distinction average WAM Assessment: Through semester assessment (100%) Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
This UoS aims to give the student experience in critically engaging an audience in the theoretical and practical understanding of engineering and technology. Students will learn professional skills in client relationship management, teaching and presenting, project management, leadership and teamwork. This work will be carried out with partner schools to enhance the engineering knowledge and understanding of Stage 5 high school students. This UoS places students in an environment with which they are familiar, albeit in a very different and challenging role. It allows them the opportunity to deliver a project for a professional external client and in doing so showcase engineering, the faculty and the University to the wider community.
ENGG3853 Project Risk Mgnt Tools and Techniques

Credit points: 6 Teacher/Coordinator: Aminah Wehbe Session: Semester 1 Classes: Lecture 2 hrs/week; Tutorial 1 hr/week; Laboratory 1 hr/week. Prerequisites: ENGG2851. Prohibitions: CIVL4810 Assessment: Through semester assessment (60%) and Final Exam (40%) Mode of delivery: Normal (lecture/lab/tutorial) day
Project risk management is considered to be one of the most vital of the nine content areas of the Project Management Body of Knowledge (PMBOK) as also developed by ISO/IEC 31010 (The International Organization for Standardization and The International Electrotechnical Commission (IEC)): Risk management - Risk assessment techniques. Important projects tend to be time constrained, pose significant technological and sociological challenges, and suffer from a lack of adequate resources and understanding of the risks involved at varying scales and different times. This UOS covers most relevant tools and techniques for identifying and managing project risk from a theoretical and practical perspective so that possibility of failure in critical projects can be minimised - e.g. through failure mode and effect analysis (FMEA). It offers students a step by step systematic approach through every phase of a project, showing them how to consider the possible risks involved at every stage in the process. Drawing on real-world situations and examples, this UOS outlines proven methods, demonstrating key ideas for project risk planning and showing how to use system-level risk assessment tools. It further offers guidance related to analysis aspects such as available resources, project scope, and scheduling, and also explores the growing area of Enterprise Risk Management.
ENGG3854 Negotiating and Contracting

Credit points: 6 Teacher/Coordinator: Natalie Perisa Session: Semester 2 Classes: Lecture 2 hrs/week; Laboratory 1 hr/week; Tutorial 1 hr/week. Prerequisites: ENGG1850 AND ENGG2850 AND ENGG2852. Prohibitions: CIVL3813 Assessment: Through semester assessment (50%) and Final Exam (50%) Mode of delivery: Normal (lecture/lab/tutorial) day
In this UOS, we draw on examples on project negotiation and contracting from "real-life" business situations and provide practical information on what to do and what not to do. Student would be exposed to the complexity involved in negotiation and contracting from initiation to formalization of final form of contract which is agreed upon and executed by all parties. Students will be taught how to understand each party's interests and then working towards reaching a common goal. In particular, dealing with complex characters including situations will be covered.
We will provide a basic understanding of commercial contracts and all their ramifications every step of the way. This UOS also explains the basics of commercial contract law, highlights how to spot potential issues before they become a problem and then how to work with a lawyer more effectively if things go wrong which is intended for corporate managers rather than lawyers. This UOS further contains coverage on forming contracts, restitution, contract interpretation, modification and dispute resolution. We also discuss remedies, performance, and third-party beneficiaries.
ENGG4000 Practical Experience

Credit points: 6 Teacher/Coordinator: Prof David Lowe Session: Intensive February,Intensive July,Semester 1,Semester 2 Classes: Practical Experience, Prerequisites: 36 Credit Points of Senior Units Assessment: Through semester assessment (100%) Mode of delivery: Professional practice
Note: Students should have completed three years of their BE program before enrolling in this unit.
The aim of this unit is to give students exposure to work in an engineering organisation and gain some professional experience; to enhance a student's abilities and experience in report writing; to encourage self-evaluation in the context of applying their theoretical knowledge to real industry practise. Students will gain a better appreciation of the role of engineers in the workplace. The assessment will enhance the student's ability to present structured observations and reflections in the mode of a formal written report.
Each student is required to gain exposure to professional engineering practice and environments and to submit a satisfactory written report of his or her work. The report will include the requirement of a detail logbook recording tasks given and timelines set for achieving these. Self-evaluation of a student's personal level of knowledge and its applicability to the workplace is a major component of the reporting. Normally 12 weeks (60 days) of practical work experience is required, though the Faculty may accept alternatives that are judged as equivalent. Students are strongly encouraged to undertake their work experience in the break between Year 3 and 4 and definitely prior to commencing their final semester of study, however any engineering work taken after completing 28 credit points of 3rd year units of study may be accepted for the requirements of this unit. The University Careers and Appointments Service is available to assist students to obtain suitable employment. This unit of study is a core unit of study in all BE programs and must be passed in order to graduate from those programs.
ENGG4061 Innovation/Technology Commercialisation

Credit points: 6 Teacher/Coordinator: Prof Ron Johnston Session: Semester 1 Classes: Lecture 1 hr/week; Project Work - in class 1 hr/week; Project Work - own time 4 hrs. Assumed knowledge: Advanced competence in technical engineering and moderate competence in professional engineering and management Assessment: Through semester assessment (100%) Mode of delivery: Normal (lecture/lab/tutorial) day
Note: Department permission required for enrolment
This UoS is designed as a 'Master Class' for final year Engineering students to grapple with the challenges of engaging in, facilitating and managing innovation and technology commercialisation. Key learning outcomes are: developing an understanding of the processes of management, and in particular of innovation, dealing with uncertain and inadequate information, how to communicate effectively to and motivate a group of people to work out what to do, and how to do it.
Content will include the challenges of modern management; understanding of the new rules of international competitiveness; effects of globalisation on Australia's economic performance; the competitiveness of Australian firms; the generation of employment and wealth; the changing requirements of the engineer; the engineer as manager and strategist; the role of innovation in business management; product innovation and commercialisation; IP recognition and management; starting a high-tech company.
Textbooks
J.Tidd and J. Bessant/Managing Innovation: Integrating Technological, Market and Organizational Change,/4th/2009//
ENGG4064 Advanced Engineering Design A

Credit points: 6 Teacher/Coordinator: A/Prof Don White Session: Semester 2 Classes: Project Work - own time 10 hrs. Prerequisites: Distinction average WAM Assessment: Through semester assessment (100%) Mode of delivery: Supervision
Note: Department permission required for enrolment
Note: Only students with an AAM of > 75% at the end of Year 3 will be invited to join this interdisciplinary group
The aim to this unit is to develop an understanding of the practice of engineering, utilising a diverse range of skills to solve complex problems. Students will gain skills in design, analysis and management by undertaking a significant project in a multi-disciplinary team comprising students from across the faculty. Each student will be required to work in a team to produce an integrated design in greater detail than is possible in ordinary classes and to write a significant design report presenting the results of the process. The ability to work in a team of engineers from different disciplines will be assessed as part of this design project.
We try to centre projects around a client, which can be an industrial facility, the Campus and Property Services Office of the University, Research departments within the university, or outside clients including non-profits and community groups.
Elements drawn from: Introduction to the design process, Clarification of the Brief, Inquiry, brainstorming, Design philosophy, Design optimization, Equipment design and costing, Hazard assessment, Environmental Impact Assessment, Project financial Analysis, Business planning.
ENGG4065 Advanced Engineering Design B

Credit points: 6 Teacher/Coordinator: A/Prof Don White Session: Semester 2 Classes: Project Work - own time 10 hrs. Prerequisites: Distinction average WAM Corequisites: ENGG4064 Assessment: Through semester assessment (100%) Mode of delivery: Supervision
Note: Department permission required for enrolment
Note: Only students with an AAM of > 75% at the end of Year 3 will be invited to join this interdisciplinary group
The aim to this unit is to develop an understanding of the practice of engineering, utilising a diverse range of skills to solve complex problems.
Students will gain skills in design, analysis and management by undertaking a significant project in a multi-disciplinary team comprising students from across the faculty. Each student will be required to work in a team to produce an integrated design in greater detail than is possible in ordinary classes and to write a significant design report presenting the results of the process. The ability to work in a team of engineers from different disciplines will be assessed as part of this design project.
We try to centre projects around a client, which can be an industrial facility, the Campus and Property Services Office of the University, Research departments within the university, or outside clients (e.g. Nature Conservation Council NSW).
Elements drawn from: Introduction to the design process, Clarification of the Brief, Inquiry, brainstorming, Design philosophy, Design optimization, Equipment design and costing, Hazard assessment, Environmental Impact Assessment, Project financial Analysis, Business planning.