Industrial engineering is the study of manufacturing operations, design, practices and techniques and plays a major role in the development process of almost every product across various industries.
Industrial engineering degrees are multi-dimensional and interdisciplinary and often overlap with other engineering specialisations such as manufacturing engineering, product engineering, supply-chain engineering, financial engineering, ergonomics, management science and operations research. Industrial Engineers have varied career prospects across multiple industries, working in diverse roles as Health and Safety Engineers, Management Analysts, Project Managers, Logisticians, Cost Estimators and Quality Control Engineers.
Universities in the UK are at the forefront of engineering advancements, blending theoretical knowledge with practical applications. Aspiring engineers are drawn to the UK not only for its world-renowned educational institutions but also for the promise of a holistic understanding of the field, tailored to meet the global challenges of today’s industries.
Learn below more about studying industrial engineering in the UK or book a free consultation with SI-UK to begin your UCAS application.
The Cambridge Industrial Systems, Manufacturing, and Management (ISMM) course aims to prepare numerous graduates for successful early careers in the industry. It offers a unique approach, combining academic teaching with industrial visits, seminars, skills development, and real industry projects. This intensive course exposes students to diverse working environments and cultures.
Graduates gain a broader perspective and experience, opening doors to various industrial careers. The curriculum includes taught modules, company visits, in-company projects, an overseas study tour, and a research dissertation. The learning process emphasises hands-on experiences and reflective thinking, with academic and industrial tutors’ mentorship. Company visits and projects may be conducted online when necessary.
Oxford’s Department of Engineering Science is among the most prestigious in the UK and offers accredited courses across major engineering branches. With an annual production of approximately 160 engineering graduates, the department ensures a broad perspective appreciated by employers. Graduates work in diverse fields, from designing cars to healthcare, displaying versatility.
The department also nurtures managerial and entrepreneurial skills, leading some graduates into commerce or starting their own ventures. Engaging in extensive multidisciplinary research, the department maintains its tradition of scientific fundamentals, established since its foundation in 1908, contributing to a century of excellence in engineering education and cutting-edge research.
The MEng in Design Engineering at Imperial College London presents an all-encompassing course centred on creating advanced products, services, and comprehensive systems. The course accentuates inventive thinking, the use of computer-supported engineering, refining processes, understanding human interactions, and entrepreneurial abilities.
The initial two years of the curriculum delve into fundamental aspects of engineering, computing, mathematics, and human-centric considerations. In contrast, the latter two years focus on sophisticated design methodologies, advanced engineering concepts, and entrepreneurial activities, with choices for specific areas of expertise.
Launched in 2017, Nottingham Trent University’s Department of Engineering is committed to shaping future engineers through strategic investments in staff, facilities, and a purpose-built Engineering Building at Clifton Campus. The diverse faculty, with industry, research, and academic backgrounds, ensures a comprehensive understanding of industry needs, benefiting students and collaborators.
Specialising in electronic, mechanical, biomedical, and sports engineering, the department focuses on core engineering fundamentals, emphasising tools, skills, creativity, and project delivery. The department has gained global recognition in areas like human performance, future materials, biomedical engineering, and robotics, collaborating with industrial partners across various sectors.
Durham University, a prominent member of the Russell Group, is globally recognised for its commitment to research and research-led teaching in engineering. The university encourages interdisciplinary research and promotes national and international collaborations. Accredited by Professional Engineering Institutions, Durham’s engineering degree programmes ensure graduates meet academic requirements for Chartered Engineer (CEng) status.
The BEng in Mechanical Engineering provides a broad engineering education for the first two years, allowing specialisation in the third. With flexibility in course structure, students can transition between engineering pathways, empowering them to make informed decisions and preparing them for dynamic careers in modern engineering.
Entry requirements: IB Diploma score – 38 with 666 in higher level subjects, including Mathematics and one STEM subject (Biology, Chemistry or Physics).
What are the admission requirements for industrial engineering?
Typically, for undergraduate engineering courses, applicants need to have completed secondary education with strong grades in mathematics and sciences. A relevant bachelor’s degree and work experience may be required for postgraduate courses.
What is the highest salary for an Industrial Engineer?
The salary of an industrial engineer can vary based on factors such as location, experience, education, and the specific company. In the UK, experienced industrial engineers in senior roles can earn £50,363 and more. However, referring to local salary surveys or industry reports for the most up-to-date and region-specific information is essential.
Is it worth studying Industrial Engineering?
Industrial engineering offers a blend of technical skills and management principles, making it a versatile field of study. Graduates often find manufacturing, logistics, healthcare, and other sectors opportunities. The degree can provide a holistic understanding of optimising processes and systems, which is valuable in many industries. Studying industrial engineering can certainly be worth it if one is interested in engineering and business processes.
