In the 1960's there was a movement that significantly enhanced Chemical Engineering by systematically integrating mathematical and computational techniques with the explicit aim to understand the behaviour of chemical processes as well as to allow their systematic design via mathematical modelling. More specifically, it focuses on the development and application of modelling and computational methods to simulate, design, control and optimise processes. The information contained in this Website is for informational purposes only and is not intended as a form of direction or advice and should not be relied upon as a complete definitive statement in relation to any specific issue. It transforms needs and requirements into a set of system product and process descriptions, generate information for decision makers, and provides input for the next level of development. It’s a collection of ways and means across many disciplines. No federal endorsement of sponsors intended. Polymerization: kinetic phenomena regarding reaction kinetics and heat and mass transport. Due to the importance of biotechnology in itself, scientifically and in terms of production capabilities versatility, as well as the prioritisation of technological attributes which are greatly important nowadays: green technologies, sustainability, cyclic economy, etc. Process design: conceptual process design with the aim of modeling, synthesizing and optimizing integrated reaction and separation processes. In our group we believe passionately in the capabilities, the applicability, and the value of Chemical Engineering as a discipline at large, and the contribution and impact it has to make in the years to come. Process operations and optimization algorithms: development and application of algorithms for model-predictive control and real-time optimization of batch and continuous processes. Despite the complexity of how cells operate and their intricate organisation and functioning, they can be still viewed as systems that can be analysed using the fundamental tools of Chemical Engineering, ranging from transport phenomena, fluid mechanics, chemical reaction engineering, to process design and control. Any information, products, services or hyperlinks contained within this website does not constitute any type of endorsement by the DoD, Air Force, Navy or Army. AcqNotes is not an official Department of Defense (DoD), Air Force, Navy, or Army website. Department of Chemical Engineering and Biotechnology Our research group, led and founded in Cambridge University by Dr. V.S. Process Systems Engineering (PSE) is an interdisciplinary field, focusing on the design and operation of complex production systems. Access to and use of this websites information is at the user's risk. Modeling and Identification of Complex Systems, Multi-Scale Modeling in the Chemical Supply Chain, Synthesis Toolbox of the Process Design Group, Control Toolbox of the Process Operations Group, Mathematics, Computer Science and Natural Sciences, Electrical Engineering and Information Technology, Process Operations and Optimization Algorithms, Faculty of Mathematics, Computer Science and Natural Sciences, NGP2, Center for Next Generation Processes and Products. Chemical Engineering emerged as an Engineering discipline which aimed to produce materials in bulk via chemical reactions. Common theme is the development and use of model-based optimization-assisted methodologies. Deterministic global optimization, with particular focus on embedded problems (bi-level, semi-infinite). Whatever the causes, it should be made clear that biotechnology is an aspect that at least from the fundamental scientific point of view has much to offer to the Chemical Engineering discipline, and equally our discipline has to offer to it by a systematic effort and strategy to integrate and expand on the domain. We do so by making our ideas publicly available through peer-reviewed journal articles, books, conferences, by delivering such solutions to industry directly, and by participating in national and international collaborations for education and research for the benefit of society at large. The systems engineering process is the heart of systems engineering management. Its purpose is to provide a structured but flexible process that transforms requirements into specifications, archi-tectures, and configuration baselines. Since July 2014, Prof Marquardt is on leave of absence from RWTH to direct the Forschungszentrum Jülich (FZJ). The engineering aspect was first considered to arise due to the mechanical engineering equipment involved in production plants. Why study Chemical Engineering at Cambridge? Any information, products, services or hyperlinks contained within this website does not constitute any type of endorsement by the DoD, Air Force, Navy or Army. The Chair of Process Systems Engineering (PT) was founded in 1992 and directed by Prof. Wolfgang Marquardt. After several decades of applications in the chemical industry, around the 1980's-1990's it can be seen that research in the basic domains of chemical reaction engineering and separation processes begins to slow down as there is simply no more scope in researching well-established principles. West Cambridge Site In this sense it is important for chemical engineers and university faculties as well to explore such productive systems, as well as other applications tangent to them such as in biomedical systems. Process engineering looks at the entire process from Point A, which is a raw material, to Point Z, which is the desired end product. Jump to Main Navigation Preceding pulping, in particular, chemical biomass disintegration using Ionic Liquids, is also part of the research. Figure 1. Issues in healthcare, biological systems, new materials, safety, maintenance, and process intensification, design, control and optimisation are some of these challenges facing modern-day chemical engineers – both in industry as well as in research. Each program is different so there is no one process that perfectly fits. Systems engineering is a structured, interdisciplinary development process for planning, designing, implementing, managing, operating, and retiring a system. Our group is founded upon the vision to solve the most challenging problems across the board from within Chemical Engineering, and to identify new areas where we can contribute. More specifically, it focuses on the development and application of modelling and computational methods to simulate, design, control and optimise processes.