Content of Learning Activity

This course is divided into parts.
The biocatalysis and bioreactor aspects are discussed by the characterisation of the mechanisms (enzymatic and microbial biocatalysis), and engineering microbial bioreactors (flows, continuous reactors, batch, fed-batch, airlift, the mass balances, heat exchanges). Associated with these descriptions, scale up problems and monitoring of processes are presented.
Some examples of models such as metabolic fluxes, structured models, macroscopic models are detailed.
The purification aspects (membranes, chromatography, precipitation, etc.) are then discussed in the light of the final use of bioproduct. Some examples of major industrial bioprocesses are described (antibodies, vaccines, bioethanol, biogas, treatment of urban waters).

Required Learning Resources/Tools

Not applicable

Recommended Learning Resources/Tools

Not applicable

Other Recommended Reading

S. Weinman, P. Méhul - 2004 - Toute la Biochimie - Paris - Dunod. J. E. Bailey, and D. F. Olis - 1986 - Biochemical Engineering Fundamentals - New York - Mc Graw-Hill, Inc.. A.L. Lehninger - 1998 - Principes de Biochimie - Paris - Flammarion Médecine-Sciences. W. Soetaert, E.J. Vandamme, 2010 - INdustrial Biotechnology - Wiley-VCH Verlag, Weinheim.

Mode of delivery

• Face to face

Type of Teaching Activity/Activities

• Cours magistraux
• Excursions, visites

Evaluations

The assessment methods of the Learning Activity (AA) are specified in the course description of the corresponding Educational Component (UE)