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(Bio)chemical process design and control
Course teacher(s)
Philippe BOGAERTS (Coordinator) and Benoît HAUTECTS credits
4
Language(s) of instruction
english
Course content
Part 1 (B. Haut) :
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Lectures: Kinetic models for bioreactors and ideal reactors, introduction to water bioepuration, beer production, scale up of cell culture systems, fed-batch and chemostat systems.
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Problem to solve in a group: design of a process for the elimination of a micropollutant (Bisphenol A) in a waste water.
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Synthesis of a scientific paper related to operations found in the production of beer. Oral presentation of this synthesis in front of the other students.
Part 2 (Ph. Bogaerts) : Control of a CSTR : basic principles; Control of a batch exothermic reactor; Control of time delay and minimum phase processes; Feedforward control; Control of MIMO (multiple inputs multiple outputs) systems.
Objectives (and/or specific learning outcomes)
To develop the ability to use multidisciplinary notions already acquired during various courses (reactor engineering, unit operations, environmental technologies, microbiology, transport phenomena, ...) for the resolution of concrete problems related to the design of a bioreactor.
To address control structures well suited to chemical and biotechnological processes and to illustrate them on practical case studies.
Teaching methods and learning activities
Part 1 (B. Haut): lectures with PowerPoint slide shows, exercises, group problem (but with question and answer sessions), presentation of the synthesis of a scientific paper. All the material for this part of the course is available on the TIPs website (www.tips-ulb.be).
Part 2 (Ph. Bogaerts): lectures with PowerPoint slideshows, exercise sessions on PC.
Contribution to the teaching profile
This course helps to train students to :
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reformulate complex engineering problems in order to solve them (simplifying assumptions, reducing complexity) ;
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collaborate in a (multidisciplinary) team ;
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conceive, plan and execute a research project, based on an analysis of its objectives, existing knowledge and the relevant literature, with attention to innovation and valorization in industry and society.
References, bibliography, and recommended reading
Coulson et Richardson's Chemical Engineering (Volume 3 : Chemical and Biochemical Reactors & Process Control), D. G. Peacock and J. F. Richardson, 3rd edition, 1994, Butterworth-Heinemann.
Course notes
- Podcast
- Université virtuelle
Other information
Contacts
Ph. Bogaerts : 3BIO-BioControl (Biosystems Modeling and Control); email: philippe.bogaerts@ulb.be
B. Haut : TIPs department - Transfers, Interfaces, Processes; email: benoit.haut@ulb.be
Campus
Solbosch
Evaluation
Method(s) of evaluation
- Other
Other
Part 1 (B. Haut): oral examination (/4) + score for the problem (/3) + score for the presentation of the synthesis of an scientific paper (/3).
Part 2 (Ph. Bogaerts): oral examination without preparation (/10).
Mark calculation method (including weighting of intermediary marks)
Final score = score of part 1 + score of part 2.
Language(s) of evaluation
- english