Descriptif
This course addresses an overview of green chemistry and alternative solvents. Main principles of rising processes turning current chemistry to green chemistry will be presented including catalysis, supercritical fluids, ionic liquids or mecanochemistry. In addition to these main principles, carbon footprint and REACH will be introduced. Then green chemistry metrics and life cycle assessment principle will be detailed. A focus is also made on supercritical processes and extrusion assisted with supercritical CO2.
Objectifs pédagogiques
The students will be able to:
- Define the 12 principles
- Make a link between the principles and the alternative processes presented
- Detail why supercritical fluids are in line with green chemistry
- See and explain the application of supercritical fluids in pharmaceuticals and polymer industries
- Calculate carbon footprint
- Calculate data from life cycle assessment
- Calculate and discuss parameters defined in green chemistry metrics
45 heures en présentiel
réparties en:
- Cours Magistraux : 34.5
- Travail Autonomie Libre, non programmé l'EDT : 15
- Travail en Autonomie programmé à l'EDT : 4.5
- Evaluation des connaissances et capacités : DS, QCM, présentation orale : 1.5
- Travaux Pratiques, Ateliers, Visites : 3
- Travaux Dirigés : 1.5
Diplôme(s) concerné(s)
UE de rattachement
- UE-M-ADPH-GreenPrc : UE 13 Green processes for pharmaceutical engineering
Pour les élèves du diplômeAdvanced Pharmaceutical Engineering
- Kinetics
Format des notes
Numérique sur 20Pour les élèves du diplômeAdvanced Pharmaceutical Engineering
Vos modalités d'acquisition :
Assessment:
- LCA and green chemistry metrics (1.5 h)
Le coefficient de l'enseignement est : 2
Programme détaillé
- Introduction to green chemistry and use of green chem application as MCQ: 1.5 h (L)
- Basics in kinetics: 1.5 h (L) + 1.5 h (exercises)
- Catalysis: 3 h (L)
- REACH: 1.5 h (L)
- Carbon footprint and organo catalysis: 1.5 h (L) + 1.5 h (S) + 1.5 h (L)
- LCA : 9h (L) + 1.5 h (S)
- Green Chemistry Metrics: 1.5 h (L) + 1.5 h (S) + 1.5 h (L)
- Mecanochemistry: 1.5 h (L)
- Supercritical fluids: 4.5 h (L) + 3 h (visit)
- Ionic liquids: 1.5 h (L)