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  • Domaine : Masters du domaine SCIENCES ET TECHNOLOGIES
  • Diplôme : Master
  • Mention : Chimie
  • Parcours : M2 Synthesis, catalysis and sustainable chemistry
  • Unité d'enseignement : Sustainable industrial chemistry
Nombre de crédits de l'UE : 3
Code APOGEE : CHM2243M
UE Libre pour ce parcours
UE valable pour le semestre 1 de ce parcours
    Responsabilité de l'UE :
ANDRIOLETTI BRUNO
 bruno.andriolettiuniv-lyon1.fr
04.72.44.62.64
    Type d'enseignement
Nb heures *
Cours Magistraux (CM)
18 h
Travaux Dirigés (TD)
0 h
Travaux Pratiques (TP)
0 h
Durée de projet en autonomie (PRJ)
0 h
Durée du stage
0 h
Effectif Cours magistraux (CM)
210 étudiants
Effectif Travaux dirigés (TD)
35 étudiants
Effectif Travaux pratiques (TP)
18 étudiants

* Ces horaires sont donnés à titre indicatif.

    Pré-requis :
none
    Compétences attestées (transversales, spécifiques) :

Working knowledge of modern approaches currently used in industry for
1) limiting the environmental impact of the chemical transformation,
2) limiting the risks for the chemists and the users,
3) economical optimization
    Programme de l'UE / Thématiques abordées :

Course objectives: to provide an overview of the new trends in designing industrial chemical processes which are environmentally friendly and economically feasible. Selected examples (from bulk to fine chemistry) taken from contributions by experts from industry will highlight the possibilities of running industrial chemical processes in a sustainable manner and we will discuss the challenges and opportunities for the future.

 Different aspects will be described and discussed such as

1) New regulations
2) Green solvents
3) Use of renewable raw materials (lignin, starch, tannins,...)
4) Use of alternative energy sources in chemical processes,
5) Design of intrinsically safe processes involving the use of microreactor, process optimization and integrated reaction,
6) New separation technologies, waste reduction, new catalytic routes and/or solvent and process optimization.

 

All the classes will consist of seminars and practical examples will be discussed with the students.

 

Bibliography:

 

Sustainable Industrial Chemistry: Principles, Tools and Industrial Examples

Fabrizio Cavani (Editor), Gabriele Centi (Editor), Siglinda Perathoner (Editor), Ferruccio Trifiro (Editor)

ISBN: 978-3-527-31552-9; October 2009

Date de la dernière mise-à-jour : 31/08/2017
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