Engineering Sector

Engineering is a sector that uses scientific and mathematical principles to tackle complex problems and create effective solutions.

It involves applying new ideas and concepts to practical situations, resulting in the development of innovative technologies that benefit society.

Engineers use their expertise to design, test, and implement systems and structures in a variety of fields, including aviation, construction, and transportation.

Their skills are vital in creating effective and efficient solutions to complex problems. Whether it's designing aircraft engines that are safe and fuel-efficient, constructing buildings that can withstand natural disasters, or developing transportation systems that reduce carbon emissions, engineers play a crucial role in shaping our world. Through careful testing and experimentation, they ensure that their creations are reliable and meet the needs of society.

By combining science, mathematics, and creativity engineers are able to make significant contributions to the world we live in.

Looking for your next opportunity?

Find out more

Make an enquiry

Engineering Industries

There are many fields of engineering, including but not limited to

Aerospace Engineering

is a branch of engineering that deals with the design, development, testing, and production of aircraft and spacecraft.

It encompasses a wide range of disciplines, including aerodynamics, propulsion, materials science, avionics, and control systems.

Aerospace engineering plays a crucial role in the development of advanced technologies for air and space travel, military and defense systems, and commercial aviation.

IT Infrastructure Engineering

IT infrastructure refers to all the hardware, software, and networking components used to build and manage an organization's computer systems. Computer engineering focuses on designing, developing, and maintaining hardware architecture and computer systems, while software engineering focuses on building and maintaining software applications. Both areas of study are important for businesses to ensure stable, secure, and efficient operation of their technology systems.

focuses on designing, analyzing, and maintaining mechanical systems. This includes everything from small individual parts to large complex machinery such as airplanes, cars, and robots. Mechanical engineers use their knowledge of physics, materials science, and mathematics to design and develop new products that meet specific requirements and solve real-world problems. They also troubleshoot and maintain existing systems to ensure they continue to function properly.

Mechanical Engineering

Electrical Engineering

involves the design, development, and implementation of electrical systems and devices. This can include anything from circuit breakers, transformers, and motors to communication systems, control systems, and power grids. Electrical engineers work within a variety of industries, including telecommunications, transportation, healthcare, and manufacturing, and are involved in everything from research and development to testing and maintenance.

Chemical Engineering

is a field combining chemistry, physics, and math to design and develop processes, for the production of various materials and products. Chemical engineers work in various industries to optimize the efficiency and safety of production processes. They use principles of thermodynamics, kinetics, and transport phenomena to design and operate chemical processes that convert raw materials into useful products, playing a vital role in improving the health, and the quality of life for people around the world.

Photo by ThisisEngineering RAEng on Unsplash

Environmental Engineering

focuses on the study, design, and implementation of processes and technologies to address environmental challenges. Projects can be related to water and air pollution control, waste management, renewable energy, and sustainability. They use principles from various sciences, such as chemistry, biology, and physics, to develop solutions that protect natural resources, improve public health, and promote environmental sustainability.

BioMedical Engineering

is the branch of engineering that involves the application of engineering principles and design concepts to medicine and biology for healthcare purposes. It combines the disciplines of biology, medicine, and engineering to develop new treatments, medical devices, diagnostic tools, and healthcare systems. Projects can range from designing prosthetic limbs and developing artificial organs, to developing diagnostic tools such as imaging systems and sensors.

Civil Engineering

deals with the design, construction, and maintenance of structures such as buildings, roads, bridges, and water systems. Civil engineers work to ensure that these infrastructure projects are safe, efficient, and sustainable and are responsible for overseeing every stage of a project, from the initial planning and design to the construction and maintenance stages.

Structural Engineering

involves the design and analysis of structures such as buildings, bridges, tunnels, and towers. Focusing on ensuring that structures are safe and able to withstand the forces they will encounter throughout their lifespan. Structural engineers use a variety of skills to create models/simulations that help them predict how a structure will behave in different conditions. Working with architects and construction teams to ensure designs are both practical and aesthetically pleasing.