BEng Biomedical Engineering

The BEng Biomedical Engineering programme at the University of Surrey combines engineering principles with biological and medical sciences to prepare students for careers in the design and development of medical devices and healthcare technologies.

Experiential Learning Highlights:

• Hands-On Laboratory Training: Students engage in practical sessions throughout the programme, developing key skills in areas such as biomechanics, biomaterials, and medical device design. These practical experiences are integral to understanding the theoretical concepts taught in lectures.
• Final-Year Design Project: In the final year, students undertake an individual design project, allowing them to apply their knowledge to real-world biomedical engineering challenges. This project culminates in a prototype and a detailed report, providing valuable experience in product development and engineering design.
• State-of-the-Art Facilities: Students have access to cutting-edge laboratories and equipment, including a clinical-grade human movement lab, design software, and CNC machine tooling equipment within the Design Centre. These facilities support hands-on learning and innovation in biomedical engineering.
• Industry Collaboration: The programme benefits from over 50 years of experience in training biomedical engineers, with strong links to industry partners. This provides students with opportunities for internships, placements, and collaborative projects with leading companies in the biomedical sector.

Graduates develop expertise in biomechanics, biomaterials, medical imaging, and rehabilitation engineering, preparing for careers in medical device design, rehabilitation technology, clinical engineering, and biomedical research. Typical roles include Biomedical Engineer, Clinical Engineer, Product Development Engineer, and Research Scientist.

• University Services That Support Your Career
  • The University offers a dedicated Careers Centre providing support with CV writing, interview preparation, and job search strategies.
  • Students have access to a wide range of resources, including career fairs, employer networking events, and workshops aimed at enhancing employability skills.
  • Opportunities for internships and placements are available, allowing students to gain practical experience and build professional networks.
• Employment Stats & Salary Figures
  • Approximately 80% of graduates are employed or engaged in further study within 15 months of graduation.
  • The median starting salary for graduates is around £33,000, with a typical range between £30,000 and £36,000.
  • After five years, the median salary increases to approximately £40,000, with a typical range between £35,000 and £45,000.
• University–Industry Partnerships
  • The University maintains strong links with various healthcare institutions, research organizations, and biotechnology companies, facilitating collaborative projects and research opportunities.
  • Students have access to state-of-the-art facilities and laboratories, supporting cutting-edge research in biomedical engineering.
  • The institution's commitment to research excellence ensures that students are exposed to the latest developments and methodologies in the field.
• Accreditation & Long-Term Value
  • The program is accredited by the Institution of Engineering and Technology (IET) and the Institute of Physics and Engineering in Medicine (IPEM), ensuring that the curriculum meets high academic and professional standards.
  • Graduates are well-positioned to pursue further studies or professional qualifications, enhancing their career prospects in biomedical engineering and related fields.
  • The comprehensive training and experience gained during the program provide a solid foundation for a successful career in biomedical engineering.
• Graduation Outcomes
  • Alumni have pursued careers in various sectors, including medical device companies, hospitals, research institutions, and biotechnology firms.
  • Many graduates continue their education by enrolling in MSc programs, PhD research, or professional engineering qualifications, further advancing their expertise and career opportunities.

Further Academic Progression

• MSc Programs in Biomedical Engineering, Medical Physics, or Clinical Engineering
• PhD Research in areas such as Biomechanics, Biomaterials, or Medical Imaging
• Professional Engineering Qualifications through institutions like IET or IPEM