Australian engineering has always been as a dominant specialty in Australian institutions, and this category of majors is not at all less hot than the application of business. In recent years, many students are hovering on the edge of choosing a major, both to consider the popularity of the major, but also consider the difficulty of the courses taken. Of course students who are more adept at the sciences prefer engineering majors, such as the engineering majors to be mentioned today.
Engineering involves a very complex series of scientific and technical integration of the principles of a combination of disciplines, the study of the profession generally in the future employment will be to the direction of engineers, engineers through imagination, judgment and reasoning, the application of mathematics, physics, and materials-related knowledge of science, technology, mathematics, and practical experience applied to the design, manufacture, operation of the object or program. The more representative engineering disciplines at this stage are civil engineering, hydraulic engineering, mechanical engineering, bridge and road engineering, electrical and electronic engineering, thermal and nuclear energy engineering, instrumentation engineering and chemical and pharmaceuticals and so on.
It is worth noting that the Australian Master of Engineering degree is globally recognized thanks to the Washington Accord, signed in 1989. The original signatories of this international agreement were the United Kingdom, Ireland, Australia, New Zealand, the United States and Canada, and now it has been extended to many other countries. Under the Accord, the signatories recognize engineering degrees from their respective universities, which means that an engineering degree from Australia is equivalent to a passport that allows you to work in engineering-related jobs in any country in the world.
The basic 60-point immigration advantage for engineers is considered a unique advantage in Australia. Coupled with Australia's coal, uranium, oil, natural gas and other natural resources, renewable resources are also relatively rich, mining and metal processing industry are Australia's pillar industries, which provides a broad stage for engineering graduates. Students studying engineering in Australia will have more opportunities to migrate to Australia after graduation. How to choose a major?
Professional Introduction
Civil Engineering (Civil Engineering)
Civil Engineering majors are trained to master the basic theories and fundamental knowledge of various civil engineering disciplines, and to be able to engage in planning, design, construction, and management in the fields of housing construction, underground construction (including mine construction), roads, tunnels, bridges, hydroelectric power stations, ports, and offshore structures and facilities, water supply and drainage, and foundation treatment. The program is designed for senior engineers and technicians who are capable of engaging in planning, design, construction, management and research work in such fields.
Major Research Directions
Structures, Water Resources, Transportation, Geomechanics
Employment Prospects
Civil Engineering has a very optimistic outlook in Australia, and many international students have been able to find a good large-scale company, with a considerable salary. Students with good grades can even easily get the opportunity to study for a bachelor's degree and migrate to Australia easily.
Electrical Engineering (Electrical Engineering)
This program is divided into strong electricity and weak electricity. Strong electricity is mainly related to generators and other aspects of the future, and weak electricity is mainly to do some simple small programs, such as traffic lights and so on. Electrical engineering and automation professional (referred to as electrical) is the most extensive learning inside the electrical class, the most professional. High voltage, automatic control, communications, mechanical fundamentals will be learned, so the employment can choose a wide range.
Main research direction
There are two general directions, which are strong and weak electricity. Academic content includes research, design, development, production and management of complex systems.
Employment prospects
Power supply bureaus, power stations (thermal, hydro, nuclear is the future development trend), power equipment companies, software companies, communications companies, automation equipment companies and so on, it is because of the wide range of specialized knowledge, so as long as related to the electricity can go, the employment prospects are very good.
Chemical Engineering (Chemical)
Chemical engineering is for economic or other purposes, one or several raw materials processing, so that the chemical reaction, so as to produce the product of the process, this process is generally realized in the factory scale.
The study of chemical and physical processes carried out in the production of chemical and other process industries (process industry) **** the same law of an engineering discipline. In addition to traditional chemical manufacturing (e.g., petroleum refining, metal materials, plastics synthesis, food processing, and catalytic manufacturing), modern chemical engineering also encompasses bioengineering, biopharmaceuticals, and related nanotechnology. And this kind of modern chemical industry has developed very rapidly in recent years. It has brought great convenience to human life and has had a profound impact on the way of life of human beings.
Job Responsibilities
The Chemical Engineer makes valuable materials from raw materials by utilizing conversion, research and development, and design methods with minimal impact on the environment.
Principal Research Interests Biotechnology Sustainability Processing Nanotechnology: molecular level engineering
Career Prospects
Traditional industrial fields (chemical, manufacturing, petrochemical and mining industries)
Expanding fields ( computing, electronics, food, clothing, pharmaceuticals and more)
Mechanical Engineering
Mechanical engineering is an engineering discipline that involves the use of the laws of physics to analyze, design, manufacture and maintain mechanical systems. Mechanical engineering is an engineering discipline that involves the use of the laws of physics to analyze, design, manufacture and maintain mechanical systems. Mechanical engineering is an applied discipline that studies and solves all theoretical and practical problems in developing, designing, manufacturing, installing, utilizing, and repairing various kinds of machinery based on the theoretical foundation of relevant natural and technical sciences and the technical experience in production practice.
The main research direction
1. Establish and develop the engineering theoretical foundation that can be practically and directly applied to mechanical engineering, such as engineering mechanics, fluid mechanics, engineering material science, material mechanics, combustion science, heat transfer, thermodynamics, tribology, mechanism, mechanical principles, mechanical parts, metal technology and non-metallic technology.
2. Research, design and development of new mechanical products, improvement of existing mechanical products and production of new generation mechanical products to meet current and future needs.
3. production of mechanical products, such as planning and realization of production facilities, development of production plans and production scheduling, preparation and implementation of manufacturing processes, design and manufacturing.
Design and manufacturing, scientific research, technology development, and production operation management in the field of mechanical engineering. Technology and management can be done, mainly mechanical engineers, equipment engineers, quality engineers, after-sales technical support and other positions.
Telecommunications Engineering (Communications Engineering)
This program cultivates senior Engineering and technical personnel.
The study of signal generation, information transmission, exchange and processing, as well as theoretical and engineering applications in computer communications, fiber optic communications, wireless communications, switching and communication networks. Majors include information and communication engineering and computer science and technology.
Communication technology research and development personnel, communication product sales personnel, and telecommunication operator staff.
Additionally insert a major good information: communications engineering is Australia's shortage of occupations, 60 points of proper immigration professional! MIT Melbourne campus provides the Bachelor of Engineering Technology (Telecommunications) fast-track program 2 years to complete undergraduate studies, for the migration road to lay the possible! The MIT Melbourne campus offers a fast-track Bachelor of Engineering Technology (Telecommunications) program that can be completed in two years!
Mechatronic Engineering
The program combines mechanical engineering and electrical engineering content, enabling students to gain expertise in remote control and automation technologies. Students will be able to master mechatronic technology, transform conceptual abstract designs into complete engineered systems, and become an excellent project leader. This specialization focuses on methods of combining moving parts, electronic ports, digital controllers, and software through effective systems.
Graduates will pursue careers related to the design and execution of intelligent mechanical systems such as robotics development, computer-controlled machine tools and automated processing systems.
Power Engineering (Powerengineering)
Students will learn about power systems, including electric power generation, electric power distribution and transmission, and electric power equipment and systems. Students will also complete a power engineering capstone project in their final academic year. The program also covers the specification, design and analysis of electric power equipment and systems as well as engineering project management.
Graduates will pursue careers related to electric power supply and distribution services, electric power generation, mining companies, rail transportation, solar and renewable energy industries, and energy consulting.
Agriculturalengineering
The study of this program equips students with the knowledge to solve problems related to sustainable agricultural production, fine farming and post-harvest agricultural and other primary products, and an understanding of biological implications, so that they are better equipped to work with specialists in agricultural science and biology***. The University of Southern Queensland is the only institution in Australia to offer a degree in Agricultural Engineering.
Graduates will go on to work in design, research and development, investigation and management in the fields of agriculture, irrigation, intensive livestock farming, processing, transportation, forestry, water supply, soil conservation, environmental protection and water conservation, both domestically and internationally.
Environmentalengineering
This course is unique in that it focuses on the sustainable management of soil and water resources, which are vital to Australia. Students are able to solve environmental problems through applied engineering. The program is wide-ranging, concentrating the University's specialists and expertise in environmental engineering, agricultural engineering, and land management. Through our environmental engineering program, students gain the knowledge and skills to become "environmental problem solvers". Graduates are prepared for careers in water and wastewater treatment, river hydrology, soil conservation, irrigation, soil salinization, drainage systems, mine remediation, environmental research, water resources engineering, soil science, engineering problem solving and management.
Computersystems engineering
The program focuses on software, hardware, and the analysis, design, and development of computer systems. The curriculum is based on electrical engineering and computer science, and is integrated with the content of the electrical and electronics program. Compared to the Electronics, Control and Communication Systems program, the Computer Systems program focuses more on the detailed study of computer and microprocessor hardware and software.
Graduates will work in specialized systems engineering applications and hardware interface computer sales as computer engineering technologists, computer manufacturing or computer systems officers.
ChemicalEngineering
Chemical engineering bridges the disciplines of chemistry, physical sciences and engineering. Chemical engineers take the results of research in the physical and biological sciences and turn them into actionable technologies and products that serve industry and the public. Chemical engineers play an important role in many fields, including information technology, environmental management, food safety, antibiotic and drug discovery and development, and petroleum and metallurgy, and even in some areas of economic development. In the work of chemical engineers, the development of safe and economical products is the main objective.
Consulting engineers, product design, engineers, research and development engineers, sales representatives, environmental engineers.
Graduates will find employment in the environmental, pharmaceutical, materials, fuels, and specialty chemical industries.