A Bachelor of Engineering degree will usually be undertaken in one field of engineering, which is sometimes noted in the degree
postnominals, as in
B.E.,
B.AE. (Aero), or
B.Eng (Elec). Common fields for the Bachelor of Engineering degree include the following fields: •
Aerospace Engineering •
Agricultural Engineering •
Architectural Engineering •
Automotive Engineering •
Biological Engineering — including
Biochemical,
Biomedical, Biosystems and
Biomolecular •
Chemical Engineering — deals with the process of converting raw materials or chemicals into more useful or valuable forms •
Civil Engineering — a wide-ranging field, including
building engineering, civil engineering, construction engineering, industrial,
manufacturing, mechanical, materials and control engineering •
Clean Technology — use energy, water and raw materials and other inputs more efficiently and productively. Create less waste or toxicity and deliver equal or superior performance. •
Computer Engineering •
Computer Science and Engineering •
Control Engineering — a relatively new and more specialized
subfield of Electrical Engineering that focuses on integrating Electrical Controls and their programming. •
Electrical and Computer Engineering/
Electronic Engineering — very diverse field, including Computer Engineering,
Communication/Communication systems engineering,
Information Technology, Electrical Engineering, Electronics Engineering,
Microelectronic Engineering, Microelectronics,
Nanotechnology, Mechatronics, Software Engineering, Systems,
Wireless and
Telecommunications,
Photovoltaic and
Power Engineering •
Engineering Management — the application of engineering principles to the planning and operational management of industrial and manufacturing operations •
Environmental Engineering — includes fields such as Environmental, Geological, Geomatic, Mining, Marine and
Ocean Engineering •
Fire Protection Engineering — the application of science and engineering principles to protect people and their environments from the destructive effects of fire and smoke. •
Geological Engineering — a hybrid discipline that comprises elements of civil engineering, mining engineering, petroleum engineering and
earth sciences. •
Geomatics Engineering — acquisition, modeling analysis and management of spatial data. Focuses on satellite positioning,
remote sensing, land surveying, wireless location and
Geographic Information Systems (GIS). •
Geotechnical Engineering — a combination of civil and mining engineering and involves the analysis of
earth materials. •
Industrial Engineering — studies facilities planning, plant layout, work measurement, job design, methods engineering, human factors, manufacturing processes,
operations management, statistical quality control, systems, psychology and basic operations management •
Information Engineering — same as Information Technology. •
Instrumentation Engineering — a branch of engineering dealing with measurement •
Integrated Engineering — a multi-disciplinary, design-project-based engineering degree program. •
Leather Engineering — an applied chemistry type based on leather and its application. •
Manufacturing Engineering: Includes methods engineering, manufacturing process planning, tool design, metrology, Robotics,
Computer integrated manufacturing,
operations management and
manufacturing management •
Marine Engineering — includes the engineering of
boats, ships, oil rigs and any other marine vessel or structure, as well as oceanographic engineering. Specifically, marine engineering is the discipline of applying engineering sciences, including mechanical engineering, electrical engineering, electronic engineering and
computer science, to the development, design, operation and maintenance of
watercraft propulsion and on-board systems and oceanographic technology. It includes but is not limited to power and propulsion plants,
machinery,
piping,
automation and
control systems for marine vehicles of any kind, such as surface ships and submarines. •
Materials Engineering — includes metallurgy,
polymer and
ceramic engineering •
Mechanical Engineering — includes engineering of total systems where mechanical science principles apply to objects in motion including
transportation,
energy,
buildings,
aerospace and
machine design. Explores the applications of the theoretical fields of
Mechanics,
kinematics,
thermodynamics, materials science,
structural analysis, manufacturing and
electricity •
Mechatronics Engineering - includes a combination of mechanical engineering, electrical engineering, telecommunications engineering, control engineering and computer engineering •
Mining Engineering — deals with discovering, extracting, beneficiating, marketing and utilizing mineral deposits. •
Nuclear Engineering — customarily includes
nuclear fission,
nuclear fusion and related topics such as heat/thermodynamics transport, nuclear fuel or other related technology (
e.g.,
radioactive waste disposal) and the problems of nuclear proliferation. May also include
radiation protection,
particle detectors and
medical physics. •
Petroleum Engineering — a field of engineering concerned with the activities related to
exploration and production of
hydrocarbons from the Earth's subsurface. •
Plastics Engineering — A vast field which includes plastic processing, mold designing... •
Process Engineering — the understanding and application of the fundamental principles and laws of nature that allow humans to transform raw material and energy into products that are useful to society, at an industrial level. •
Production Engineering — a term used in the UK and Europe similar to Industrial Engineering in
North America. It includes the engineering of machines, people, processes and management. Explores the applications of the theoretical field of Mechanics. •
Robotics and
Automation Engineering — relates all engineering fields for implementation in robotics and automation •
Software Engineering — systematic application of scientific and technological knowledge, methods and experience to the design, implementation, testing and documentation of software •
Structural Engineering — analyze, design, plan and research structural components, systems and loads, in order to achieve design goals including high-risk structures ensuring the safety and comfort of users or occupants in a wide range of specialties. •
Systems Engineering — focuses on the analysis, design, development and organization of complex systems •
Textile Engineering — based on the conversion of three types of
fiber into
yarn, then
fabric, then
textiles ==International variations==