Course units are updated regularly to reflect emerging research and design technologies developed at the University of Manchester and also from other research groups worldwide contributing to the field. Much of this research has been supported financially by the Process Integration Research Consortium for over 30 years. This research focuses on energy efficiency, the efficient use of raw materials, the reduction of emissions reduction and operability in the process industries. The programme is underpinned by research activities in the Centre for Process Integration within the School. The course also aims to develop students' skills in implementing engineering models, optimisation and process simulation, in the context of chemical processes, using bespoke and commercially available software.Ī key feature of the course is the applicability and relevance of the learning to the process industries. Recent projects have addressed modelling, assessment and optimisation of petroleum refinery hydrotreating processes, crude oil distillation systems, power plants, waste heat recovery systems, refrigeration cycles with mixed refrigerants, heat recovery steam generators, biorefining and biocatalytic processes and waste-to-energy technologies. In these projects, students apply their knowledge and skills in process design and integration to investigate a wide range of process technologies and design methodologies. Students then carry out the research project during the third trimester. These units develop students skills in critical assessment of research literature, group work, written and oral communication, time management and research planning. In two research-related units, students develop their research skills and prepare a proposal for their research project. These units focus on design, optimisation and integration of process technologies and their associated heat and power supply systems. In the second trimester, the students choose three elective units from a range covering reaction systems, distillation systems, distributed and renewable energy systems, biorefining, and oil and gas processing. Computer Aided Process Design develops skills for modelling and optimisation of chemical processes. Energy Systems develops systematic methods for designing heat recovery systems, while Utility Systems focuses on provision of heat and power in the process industries. In the first trimester, all students take course units on energy systems, utility systems and computer aided process design. The MSc Advanced Process Integration and Design aims to enable students with a prior qualification in chemical engineering to acquire a deep and systematic conceptual understanding of the principles of process design and integration in relation to the petroleum, gas and chemicals sectors of the process industries. Much of the content of the course stems from research related to energy production, including oil and gas processing. The programme was a result of emerging research from the Centre for Process Integration, initially focused on energy efficiency, but expanded to include efficient use of raw materials and emissions reduction. Specific careers related to a master’s program in Chemical Engineering include: Chemical Process Engineer, Chemical Investigation Analyst, Agro-food Engineer and Chemical Plant Manager.A specialised master's in Chemical Engineering, the MSc Advanced Process Integration and Design started in the Department of Chemical Engineering (UMIST) over twenty years ago. Some of the areas to specialize in include the following: polymers and Biopolymers, Chemical Processes’ Engineering, and Biotechnological Engineering.īy studying a master’s program in Chemical Engineering, students may choose to continue onto a PhD program. Students get an opportunity to define their area of specialization in chemical engineering. It also trains students to become competent chemical engineers who can adapt easily to positions of high responsibility in organizations, investigation centers, chemical sectors, and learning institutions. These include numerous aspects that are associated with security and measures that must be taken to protect the environment.Ī masters program in chemical engineering trains students to become chemical professionals. The knowledge learned is applicable in both large scale and smaller scale industries. Students are given a clear and wide view of technologies that are currently applied in different manufacturing processes present in the chemical industry.
CHEMICAL PROCESS SIMULATION DEGREE PROFESSIONAL
A masters degree in Chemical Engineering is a postgraduate degree program that aims at providing students with sound scientific and technological knowledge in the scope of Chemical Engineering not only in the professional context, but also in the investigation department.