![]() Chemical engineers are leading the design of large-scale facilities in the chemical, petrochemical, and industrial biotechnology sectors. We will also work with you to identify suitable opportunities and support you in the job application process for up to three years after graduation.Ĭhemical engineering is a continuously evolving discipline which is linked to a variety of industries. You will have access to career coaching and advice, CV development, interview practice, access to hundreds of available jobs via our Symplicity platform and opportunities to meet recruiting employers at our careers fairs. ![]() Those wishing to continue their education via PhD or MBA studies in the chemical or energy sectors will be well prepared by the interdisciplinary, project-oriented profile that they will have acquired throughout this course.Ĭranfield Careers and Employability ServiceĬranfield’s Careers and Employability Service is dedicated to helping you meet your career aspirations. The Advanced Chemical Engineering MSc has been developed based on Cranfield’s industry driven research, which makes our graduates some of the most desirable in the world by companies competing in a range of industries, including conventional and clean energy, materials, environments, biorefining, biochemicals, petrochemicals, waste management and consultancy and management. You will also benefit from professional development, career mentoring and teamwork to transform you into an engineering leader who will solve global challenges. Using our world-class campus pilot plant facilities and benefiting from Cranfield’s strong industry links, you will gain the essential skills and experience to develop a successful career in a thriving discipline with its high demand for postgraduate level engineers. Whilst studying with us, you will experience our applied approach to learning. Do you see yourself as a future chemical engineer making a positive impact to climate change? Join our MSc in Advanced Chemical Engineering and work alongside world-leading chemical engineering experts who are actively engaged in researching and developing the innovative materials and processes essential for net-zero energy transition. ![]() This is because industrial decarbonisation around the globe will heavily rely on the availability of affordable low-carbon sources of energy and the development of hydrogen as a clean fuel for example, advanced energy conversion and storage technologies, as well as carbon capture, storage and utilisation.Ĭhemical engineers possess the unique set of skills to imagine, design, optimise and commercialise such innovative technologies in the drive to achieve net zero. Learn from net-zero chemical engineering experts who are decarbonising industry one reaction at a timeĬhemical engineers and chemical engineering play a pivotal role in net-zero energy transition and the future of the planet, alongside mitigating the impact of traditional oil and gas.
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