Bachelor of Maritime Engineering (Specialisation) (Honours) - AUT (24V2)

Overview  2022

Entry Requirements

See entry requirements

Duration

Minimum 4 Years, up to a maximum of 9 Years

Duration

Duration refers to the minimum and maximum amounts of time in which this course can be completed. It will be affected by whether you choose to study full or part time, noting that some programs are only available part time.

Location

Launceston
Semester 1, Semester 2

Entry Requirements

See entry requirements

Duration

Minimum 4 Years, up to a maximum of 9 Years

Duration

Duration refers to the minimum and maximum amounts of time in which this course can be completed. It will be affected by whether you choose to study full or part time, noting that some programs are only available part time.

Entry requirements

Location

Launceston
Semester 1, Semester 2

Growing up I was always around boats and it has been an ongoing passion. I’ve always been interested in maths and science so this is a great combination for me. Read more about Maggie-Rose

Maggie- Rose, AMC Student
This degree program is available to students who have completed years 1 and 2 in the Bachelor of Engineering (Maritime Majors) at the Auckland University of Technology, New Zealand.
Delivered through the Australian Maritime College (AMC), the Bachelor of Maritime Engineering (Specialisation) (Honours) will guide you towards a thriving career in the maritime industry.  Your studies will focus on one of three maritime industry specialisations: Naval Architecture, Ocean Engineering, or Marine and Offshore Engineering.

Your education will include access to world-class training and research facilities. You will benefit from AMC’s industry connections and experience, providing you with a competitive edge as a graduate.

Naval Architecture

Naval Architecture focuses on the design and construction of everything from submarines and naval ships to luxury yachts, ferries, and cargo vessels. Across multiple branches of engineering, you can gain expertise in the shipping, high-speed, offshore, defence, underwater and recreational industries.

Ocean Engineering

Dive into advanced studies of the ocean environment and the conditions that impact the life cycle of marine structures. Ocean Engineering focuses on the design, construction and operation of offshore, subsea and coastal structures. You will also learn about applied wave mechanics, underwater technology and offshore renewable energy concepts.

Marine and Offshore Engineering

This specialisation focuses on the design, maintenance, and management of mechanical and mechanical-electrical systems. You’ll also learn about diverse maritime engineering topics from oil and gas exploration and extraction to submarine cabling, wind farms and wave power.

The Bachelor of Maritime Engineering (Specialisation) (Honours) programme is a distinctive Maritime Engineering degree and the only of its kind in the Southern hemisphere. The four-year programme is accredited by Engineers Australia and is aligned with the needs of industry, opening up a world of possible careers for professionally qualified maritime engineers who can provide innovative and creative solutions within the Australian and international maritime industry. The degree has a strong practical approach using AMC's specialist facilities. Within the first two years of study, compulsory units in the degree cover the fundamental aspects of maritime engineering, after which students specialise in one of the following:

  • naval architecture, focusing on the design and construction of vessels within the shipping, high-speed, offshore, military, underwater and recreational industries;
  • ocean engineering, focusing on the design of offshore structures, subsea and coastal installations for sustainable development in the maritime environment; or
  • marine and offshore engineering, focusing on the design, deployment, commissioning and management of mechanical and mechanical-electrical systems associated with the shipping, marine and offshore oil and gas industries.

The final year of the program at AQF8 consists of capstone projects such as research project and design project. The integration of experiential learning, application of authentic real-world learning to problem solving and professional skills will enable students to apply to these capstone honours projects.

  • 1 NavArch: Rationally apply comprehensive knowledge of the fundamental principles underpinning maritime engineering, with advanced knowledge of ocean vehicle design, hydrodynamics, ship structures, and/or on-board systems and equipment specific to the naval architecture discipline, using creativity, critical thinking and judgement. OceanEng: Rationally apply comprehensive knowledge of the fundamental principles underpinning maritime engineering, with advanced knowledge of the design of offshore to coastal installations, subsea platforms and additional equipment and techniques for operations in the maritime environment specific to the ocean engineering discipline, using creativity, critical thinking and judgement. MarOffEng: Rationally apply comprehensive knowledge of the fundamental principles underpinning maritime engineering, with advanced knowledge of the design, procurement and installation of mechanical, electrical and thermal systems, specific to the marine and offshore engineering discipline, using creativity, critical thinking and judgement.
  • 2 Apply knowledge of research principles and management methods to devise, plan and execute a piece of engineering research with limited supervision.
  • 3 Apply problem solving, design and decision-making methodologies to identify complex problems in both the maritime and wider engineering fields and to formulate innovative solutions with intellectual independence.
  • 4 NavArch: Apply abstraction and analysis to complex problems specific to ship design and construction industries and the wider maritime sector whilst concurrently considering the implications of the solution in a global and sustainable context using appropriate engineering methods and tools. OceanEng: Apply abstraction and analysis to complex problems specific to the design and development of offshore, subsea and coastal infrastructure and operations in the wider maritime sector whilst concurrently considering the implications of the solution in a global and sustainable context using appropriate engineering methods and tools. MarOffEng: Apply abstraction and analysis to complex problems specific to the maritime engineering industries whilst concurrently considering the implications of the solution in a global and sustainable context using appropriate engineering methods and tools.
  • 5 Demonstrate a high level of communication skills in professional practice and articulate complex knowledge, by written and oral means, to specialist and nonspecialist audiences; including clients, multi-disciplinary and multi-cultural project teams and stakeholders.
  • 6 Demonstrate entrepreneurship and creativity, professional accountability and ethical conduct through the application of design, research and project management techniques while concurrently displaying an awareness of professional engineering practice.
  • 7 Review personal performance, demonstrate independent initiatives and leadership as a means of managing continuing professional development, wellbeing and lifelong learning through engagement with stakeholders, colleagues and members of other professions.
  • Bluefin: Maritime Engineering

    Often described as a degree highlight, this experience gives students the chance to undertake a series of hands-on projects at sea. Take a five-day voyage on our 35-metre training vessel. You’ll engage in marine operations and discover issues unique to the deep-sea environment. Watch video

    Become a Student Ambassador

    Improve your communication, teamwork and leadership skills, meet new people, inspire and help others, and developing lasting friendships and networks as a student ambassador. Our ambassadors proudly represent the University throughout Tasmania in schools, at University and community events, and support a range of recruitment and engagement activities. Through the Student Ambassador Program you will have many opportunities for training and professional development, experience in real-world community engagement and outreach, networking, and public speaking, plus end up with a key point of distinction on your CV.

    We have strong collaborative connections with the Australian maritime and shipbuilding industry. This means that when you study at AMC, you’ll get real-work, hands-on experience that you won’t find anywhere else.

    The growing maritime, defence, marine and offshore sectors are an exciting and strategic area of growth for AMC and the University of Tasmania. We are a strategic partner in the Naval Shipbuilding College, where we collaborate with industry, government and academia to deliver the expertise and workforce required for Australia’s continuous naval shipbuilding program. Our ties with the maritime and shipbuilding industry provide our students with unmatched opportunities to connect with potential employers and gain real-work, hands-on experience before graduating.

    A minimum of 12 weeks real-life work experience is a mandatory requirement of your AMC Engineering qualification. Professional work placements provide students with the opportunity to apply newly acquired skills to a practical working environment. You will also demonstrate advanced knowledge and comprehension of your chosen engineering specialisation.

    During this stage of your engineering degree you will demonstrate your ability to resolve complex work-related problems under supervision of qualified engineers. You will engage in various facets of engineering, and can observe and appreciate the attitudes, responsibilities, and ethics expected of engineers.

    This work experience is undertaken in the unit JEE493 Engineering Professional Practice.

    Career outcomes

    From doing year 10 work experience with a Naval Architect and falling in love with the concept of designing ships, to becoming Chief Technology Officer for a small tech company. Harry chased his passion for Maritime Engineering and tailored his studies to make sure he became the Naval Architect he wanted to be. He enjoys using his education to develop autonomy solutions in the maritime sector.

    Harry Hubbert, Australian Maritime College Alumnus
    Naval Architecture

    The Bachelor of Engineering (Naval Architecture) with Honours prepares students for careers in the shipbuilding industry, designing and constructing luxury super yachts, sailing and power craft, destroyers and patrol boats for the defence industry, underwater vehicles and submarines, and big ocean cruiseliners; the high-speed ferry industry; insurance sector; and marine consultancy firms. It is also an excellent gateway to a career in government in the areas of commercial shipping, transport policy and administration.

    Ocean Engineering

    The Bachelor of Engineering (Ocean Engineering) with Honours prepares students for careers designing and managing the installation of offshore, subsea and coastal structures for the oil and gas industry, in particular the offshore industry; the renewable energy industry; coastal and environmental engineering; marine consultancy firms; and ocean research organisations.

    Marine and Offshore Engineering

    The Bachelor of Engineering (Marine and Offshore Engineering) with Honours is unique to AMC and focuses on the design, manufacture, deployment and commissioning of machinery and systems associated with the marine and offshore industries. Marine systems focus on the selection, deployment and commissioning of machinery, mechanical and electrical systems and operational systems designed to support the ship and underwater vehicle industry.

    There are many exciting developments being driven by increased fuel costs and the need to lower the environmental impact of vessels and oil rigs. You can get involved in engineering alternative marine power systems or improving crude oil extraction to reduce emissions while maximising yield.

    Naval Shipbuilding College

    $90 billion has been committed to build a strong, sustainable and innovative Australian naval shipbuilding industry to serve Australia’s naval defences, protect our maritime borders and create thousands of new jobs for decades to come. The Naval Shipbuilding Plan is a national endeavour involving all states and territories and will deliver enduring, long-term benefits for Australia’s naval shipbuilding industry, workforce and national economy for generations to come. Discover how you can be part of Australia’s history-making Naval Shipbuilding Program and join the National Workforce Registry.

    There is international demand for qualified graduates in the following areas:

    • Ship Building
    • Alternative energy
    • Marine survey
    • Statutory bodies
    • Military
    • Industrial process and power generation sectors.
    Postgraduate study

    If you successfully complete this course, you may be also be eligible to apply for a range of other postgraduate courses including Graduate Certificates and Graduate Diplomas and Masters by coursework and research. Filter the course list by Postgraduate to view the current courses available.

    The Bachelor of Maritime Engineering (Sepciation) (Honours) is an externally accredited degree.

    The following specialisations of this course are accredited by Engineers Australia:

    • Marine and Offshore Engineering
    • Naval Architecture
    • Ocean Engineering

    Completion of a specialisation may meet the requirements for membership of Engineers Australia. There may be additional requirements for membership beyond the completion of the specialisation.

    For further membership requirements, please visit Engineers Australia website.

    If you have any queries about the accreditation process, please contact us for further information.

    Course structure

    This program is only available to students who have completed the first two years of the Bachelor of Engineering (Maritime Majors) at the Auckland University of Technology.  Students continue to complete Year 3 and Year 4 requirements as described below.

    The Bachelor of Maritime Engineering (Specialisation) (Honours) requires the completion of 400 credit points comprising:

    • 300 credit points of Core units
    • 75 credit point Specialisation
    • 25 credit points of Electives

    The Core units are compulsory for all students and consist of 8 units in Year 1 (100 credit points), 8 units in Year 2 (100 credit points), 3 units in Year 3 (37.5 credit points) and 5 units in Year 4 (inclusive of research project and design units) (62.5 credit points).

    In Year 3, you will select your engineering Specialisation from the following: Marine and Offshore Engineering, Naval Architecture or Ocean Engineering. 6 specialist units (75 credit points) will be completed in Years 3 and 4.

    In the Elective component you can choose from any units marked as "Student Electives" which you meet the pre-requisites for, at any level, from across the university. To search for possible Elective units, use the Unit Search tool to search by the discipline that you are interested in.

    Your electives can be used to add breadth to your degree, by exploring a variety of different subject areas from within or outside the College of Sciences and Engineering. Alternatively, you can deepen your engagement with specific subject areas, for example, by completing additional units in the same discipline as your major or related fields.

    In addition to the 400 credit points, all engineering students must undertake 12 weeks of industrial experience, typically in the summer between your third and fourth year, via a work placement. You will enrol in the unit Engineering Professional Practice (0 credit points) and must receive an ungraded pass (UP) in this unit to be eligible to graduate.

    We have a team of Student Advisers available to help you structure your studies to meet your desired outcomes. For enrolment assistance please contact us via U Connect today.

    Note:  24V2/3/4 students complete Years 3 and 4 of 24V1

    This first year mathematics unit provides a broad introduction to the fundamental mathematical operations and methods (differentiation, integration and partial differentiation) and mathematical objects (vectors) needed in engineering and science. We initiate themes of mathematical modelling which are most important…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    This first year mathematics unit builds on the fundamentals learnt in Mathematics I and provides students of science and engineering an introduction to those areas of mathematics which are most important in connection with practical problems. We will initiate the…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    Engineers are required to work with many different materials in their professional lives. This unit is designed therefore to provide students with the level of knowledge required to understand the science of materials and their diverse role in engineering applications.…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit aims to introduce students to the professional practice of engineering (including ongoing learning, ethics and safety) and develops skills in technical writing, engineering drawings, engineering design process, and project management techniques. Students will apply this knowledge to work…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    HobartSemester 1
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    The unit is primarily designed for students to develop basic to intermediate computer-based skills to solve engineering problems using mathematical and programming techniques. The emphasis is on developing solutions and algorithms by building well structured and efficient computer programs and…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    HobartSemester 1
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    The main objective of this unit is to develop the student's ability to analyse objects at rest or moving at constant velocity, in a simple and logical manner by applying rigid body mechanics. Students will gain an appreciation of the…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    HobartSemester 1
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    In this unit you will develop knowledge and skills for solving problems in engineering dynamics based on fundamental theory developed using Newtonian Mechanics with an introductory focus on particle kinematics and kinetics. This leads to the development of problem solving…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    HobartSemester 2
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    The unit presents a fundamental introduction to electrical circuits and is the first unit to cover this material for all engineers. It covers basic concepts used in the study of electricity and circuits, including the fundamental laws of electrical phenomena,…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    HobartSemester 2
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    This is the foundation unit in the study of structures. By applying the knowledge gained in Statics, students are introduced to fundamental theories and techniques required to analyse the state of stress and the state of strain in any point…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    The design and analysis of engineering fluid systems and marine vehicles requires knowledge of the principles and behaviour of moving and stationary fluids. This unit provides students with knowledge and understanding of fluid flow phenomena via flow visualization, theory and…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    Energy is one of the 21st century’s biggest engineering issues, and thermodynamics (the science of energy) will play a key role in understanding the energy needs. JEE223 Thermal Engineering is a foundation unit designed to introduce the laws and concepts…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit provides students with knowledge of the fundamental concepts of statical stability and trim of intact and damaged floating structures and the associated practical implications and applications within a regulated environment.This is a unit pivotal to an adequate knowledge…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit builds on foundations laid in first year core units Mathematics I and II giving extensive treatment of some of the more advanced areas of mathematics. These areas have applications in engineering, particularly as tools for computer-based modelling, analysis…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit provides an introduction to the ocean environment and the role of maritime engineers in the design of maritime infrastructure. The unit covers essential elementary knowledge of marine sciences, types of marine crafts and maritime structures, marine systems, and…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit introduces the student to the overall philosophy, rational thought process and engineering techniques required for the conceptual design of marine structures, ocean vehicles and maritime engineering systems. The unit will also introduce student to the concepts of engineering…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    The unit provides an introduction to fundamental aspects of the rational engineering approaches and issues which influence the construction of marine vessels, on-board systems and offshore structures including materials. The unit will serve sympathetic approaches of the procedures, processes, tools,…

    Credit Points: 12.5

    This unit is currently unavailable.

    Analysis of Machines and Structures (JEE332) is an intermediate unit that introduces students to the linearized, elastic analysis techniques required for the design of Machines and Structures used in maritime engineering projects. Building upon the knowledge gained in Dynamics and…

    Credit Points: 12.5

    This unit is currently unavailable.

    Finite Element Analysis (JEE350) is an advanced unit that introduces the student to the theory and application of the Finite Element Method in engineering analysis and design.In addition to learning the theoretical bases of the finite element method the student…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    The unit facilitates the translation of theory learned across a range of prior and concurrent subjects within the Bachelor Degree course into practical application via hands-on projects conducted at sea aboard the AMC 35-metre vessel Bluefin. Additionally, students will be…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    Students develop, implement and carry out a research project under the supervision of at least one staff member from the National Centre for Maritime Engineering and Hydrodynamics or UTAS. The progress and outcomes of the research are assessed in the…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    Students develop, implement and carry out a research project under the supervision of at least one staff member from the National Centre for Maritime Engineering and Hydrodynamics or UTAS. The progress and outcomes of the research are assessed in the…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    This is the capstone design unit for all three BE degrees streams (NA, OE, MOE). This unit consolidates the knowledge and capabilities developed through previous years of study. Maritime engineering design involves developing complex solutions through the combined inputs of…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    This is the capstone design unit for all three BE degrees streams (NA, OE, MOE). This unit consolidates the knowledge and capabilities developed through previous years of study. Maritime engineering design involves developing complex solutions through the combined inputs of…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    The design and analysis of engineering fluid systems and marine vehicles require the prediction of the fluid behaviour and the interaction between the fluid and the system. This requires a good knowledge of thermo-fluid dynamic principles and the behaviour under…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit provides students with practical engineering experience in a professional workplace and improves awareness of working within a professional engineering environment. This ensures the students perceptions of engineering during academic studies develop alongside the realities of practice. This unit…

    Credit Points: 0

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSummer school (early)

    Key: On-campus    Off-Campus    International students    Domestic students

    Administrative unit to be used for recording Honours grades and marks…

    Credit Points: 0

    LocationStudy periodAttendance optionsAvailable to
    HobartSemester 1
    HobartSemester 2
    HobartSummer school
    HobartHalf Year Period 1
    HobartHalf Year Period 2
    LauncestonSemester 1
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    A specialisation in Marine and Offshore Engineering equips engineering graduates with a specialist skillset in the design, deployment, commissioning, maintenance, and management of mechanical and mechanical-electrical systems associated with the shipping, marine and offshore oil and gas industries.

    This unit provides students with knowledge of instrumentation and control systems and helps students develop practical skills in operation, modelling, design, simulation and analysis of control systems and their components commonly used in maritime industries.…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit applies thermodynamic principles to more advanced systems. Students will develop an advanced understanding of energy conversion systems, with emphasis on energy efficiency. Systems studied will include liquefaction, compression, air conditioning and combustion. Advanced Second Law analysis is used…

    Credit Points: 12.5

    This unit is currently unavailable.

    Oil and gas production involves a number of surface unit operations between the wellhead and the point of custody transfer or transport from the production facilities. The present unit is designed to introduce offshore oil and gas production/processing operations. You…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    The purpose of this unit is to develop engineering ability for system level design and commissioning of electrical powering and systems within marine and offshore sectors. The unit focuses on estimation of plant power electrical loads, design and analysis of…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit provides students with knowledge and skills required to analyse and design marine thermo-fluid engineering equipment. A problem-based learning approach is used through two design projects to provide real engineering design tasks. Students are introduced to individual component design…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    To apply related theory to the analysis, interpretation and evaluation of commoncomponents to actual applications of reliability engineering in design.…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    Students who specialise in Naval Architecture will refine their engineering skills with a specialisation in the design and construction of vessels within the shipping, high-speed, offshore, defence, underwater and recreational industries. Our graduates will ensure that Australia stays at the forefront of worldwide high-speed vessel technology.

    Knowledge of the behaviour of a marine vehicle in waves and its manoeuvring characteristics is essential when designing such vehicles. The purpose of the unit is to introduce the concepts of ship behaviour in waves and ship manoeuvring and to…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    To provide an understanding and working knowledge of resistance and propulsion of ships. Experimental and theoretical methods are covered with an emphasis on application to design. Students are shown the theory behind these methods and are required to demonstrate usage…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit exposes students to practical design issues and processes and facilitates the development of conceptual, analytical and project-planning skills required for a preliminary level of ship design with a particular emphasis on the application of skills developed in previous…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    Hydrodynamics (JEE3337) covers the development of the fundamental equations of fluid mechanics and introduces the student to the application of analytical methods for the analysis of fluid flows, particularly in the context of naval architecture. In addition to the theoretical…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    Advanced Maritime Structures is an advanced and specialised unit aimed at furthering students’ knowledge and understanding of ship structures. By applying the knowledge gained in previous units such as Mechanics of Solids and Analysis of Machines & Structures and combining…

    Credit Points: 12.5

    This unit is currently unavailable.

    Underwater Vehicle Technology is an advanced and specialist unit aimed at developing the students’ knowledge and understanding of naval architecture theories, concepts and principles required for the design torpedo-shaped underwater vehicles. This particular shape is the classic hull form used…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    Ocean Engineering covers advanced learning in offshore oil and gas engineering, coastal and subsea engineering, and related industries. AMC endeavours to emphasise the novel aspects of ocean engineering associated with developments in deeper waters.

    This unit covers the key elements and essential concepts of ocean wave mechanics that are relevant to design of offshore and coastal structures. The unit extends the concepts in JEE221 Fluid Mechanics and provides the foundations for JEE359 Design of…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit is an intermediate-level unit that introduces the students to the industry standards, codes and analysis techniques used in the design of fixed, steel and concrete offshore structures. In addition, students are exposed to experimental and analytical geotechnical techniques…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    Hydrodynamics (JEE3337) covers the development of the fundamental equations of fluid mechanics and introduces the student to the application of analytical methods for the analysis of fluid flows, particularly in the context of naval architecture. In addition to the theoretical…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit is an advanced ocean engineering unit that introduces the students to the complex hydrodynamic and structural problems associated to the design of floating structures. By combining the knowledge gained in Hydrostatics, Applied Ocean Wave Mechanics and Mechanics of…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit is an advanced ocean engineering unit that introduces the students to key concepts in coastal engineering. The unit extends and applies the concepts from Applied Wave Mechanics and Applied Offshore Structural Engineering to the context of coastal-zone hydrodynamics,…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 1

    Key: On-campus    Off-Campus    International students    Domestic students

    This unit covers contemporary or advanced topics, or recent advances in different fields of ocean engineering. It provides students with a broad knowledge of the state-of-the- arts in ocean engineering.Topics may vary between unit offerings and range from• Subsea systems…

    Credit Points: 12.5

    LocationStudy periodAttendance optionsAvailable to
    LauncestonSemester 2

    Key: On-campus    Off-Campus    International students    Domestic students

    You complete 2 electives (25 credit points) normally one in Year 3 and one in Year 4. In the Elective component you can choose from any units marked as "Student Electives" which you meet the pre-requisites for, at any level, from across the university.

    Entry requirements

    Applicants who have recently completed secondary education (in the past two years) This course uses ATAR and equivalent ranks as part of the admission process. Applicants with previous higher education study • Completed UTAS University Preparation Program or an equivalent enabling program offered by another Australian university; OR • Completed course at Diploma level or above at any Australian higher education provider (or equivalent overseas qualification); OR • Partially completed a course at Associate Degree level or higher at any Australian higher education provider (or have partially completed an equivalent overseas qualification). Applicants must have completed the equivalent of at least two units of study (equivalent to 25 UTAS credit points). If an applicant has failed any units, the application may be subject to further review before an offer is made. Applicants with previous VET / TAFE study • Completed Certificate IV or above. Applications on the basis of work or life experience This course does accept applications based on work or life experience. Prerequisites • Mathematics Methods (MTM415117) or equivalent or higher • Physical Sciences (PSC315114) or equivalent or higher (equivalency includes CHM415115 Chemistry OR PHY415115 Physics)

    Articulation from previous course versions: Students who have commenced a pre-2021 Bachelor of Engineering course at the Australian Maritime College will be eligible for full credit for all units successfully completed under the previous course version (towards the Bachelor of Engineering (Specialisation) (Honours)), provided that the units were completed no more than 10 years prior to the year of graduation from the new award. Articulation to/from the SoE BEng Program: Students may transfer to this course after completing one year of P4D in Hobart or may transfer to P4D in Hobart after completing one year of this course in Launceston. Articulation to/from Co-operative Education program: Students may articulate between the BMarEng(Spec)(Hons) and the BMarEng(Spec) (Hons) (Co-op) courses with full credit, subject to meeting the applicable admission requirements for course transfer. Articulation from other, related courses: Students who have commenced a Bachelor of Engineering (Specialisation) (Honours) course or similar at the University of Tasmania or at another institution may receive up to a maximum of 2 years (200 credit points) of advanced standing towards the BMarEng(Spec)(Hons), subject to the approval of the Course Coordinator. 2+2 Articulation Agreements: Students may articulate to the BMarEng(Spec)(Hons) in accordance with the details of any approved 2+2 articulation agreements.

    Detailed admissions information and advice for all undergraduate courses, including comprehensive, course-level student profiles, is available from UTAS Admissions.

    Fees & scholarships

    Domestic students

    Options for this course

    Cost shouldn’t get in the way of you studying.

    If you’re a domestic student, you may be eligible for a Commonwealth Supported Place in this course. This means your fees will be subsidised by the Australian Government. You’ll only need to pay the student contribution amount for each unit you study within the course.

    You may also be able to defer payment of the student contribution amount by accessing a HECS-HELP loan from the Government. If eligible, you’ll only have to pay your tuition fees once you start earning above a specific amount.

    Further information is available at Scholarships, fees and costs.

    Student contribution

    Student contribution amounts are charged for each unit of study. This means that how much you’ll pay will depend on which units you choose. Find out more about student contribution amounts.

    Further information

    Detailed fee information for domestic students is available at Scholarships, fees and costs, including additional information in relation to the compulsory Student Services and Amenities Fee (SSAF).

    International students

    2022 Total Course Fee (international students): $157,007 AUD*.

    Course cost based on a rate of $37,250 AUD per standard, full-time year of study (100 credit points).

    * Please note that this is an indicative fee only.

    International students

    International students are charged the Student Services and Amenities Fee but this fee is incorporated in the annual rate. International students do not have to make any additional SSAF payments.

    Scholarships

    For information on general scholarships available at the University of Tasmania, please visit the scholarships website.

    How can we help?

    Do you have any questions about choosing a course or applying? Get in touch.

    Domestic
    13 8827 (13 UTAS)
    International
    +61 3 6226 6200
    Email
    Course.Info@utas.edu.au
    Online
    Online enquiries

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