Green chemistry
ECTS
2 crédits
Composante
Collège Sciences et Technologies pour l’Energie et l’Environnement (STEE)
Liste des enseignements
Green chemistry
1,5 crédits15hProject : green chemistry
0,5 crédits4,5h
Green chemistry
ECTS
1,5 crédits
Composante
Collège Sciences et Technologies pour l’Energie et l’Environnement (STEE)
Volume horaire
15h
Heures d'enseignement
Green chemistry - CM, Green chemistry - TD
Green Chemistry is the design of chemical products and processes that reduce or eliminate the use and generation of hazardous substances. In this, the course’s goal is to provide basic knowledge about the principles of green chemistry, with a basis in the molecular and materials chemistry, and examines alternative chemistry solutions to support a sustainable development. The level of understanding should be such that the students in their professional career critically can participate in discussions regarding selection and design of chemical methods (i.e., reactions, processes) for enlarged sustainability in industrial production of chemicals, materials and fuels, and to avoid environmental stress caused by pollution and energy-related problems. Students acquire the competence to think of chemistry as a sustainable activity. Basic knowledge in catalysis and organic chemistry is beneficial but not necessary. The course content will include a series of lectures using Power Point slides, case studies, exercises and in-class oral presentations by the students. Students should keep up with assigned reading and ask questions in class or by email.
Project : green chemistry
ECTS
0,5 crédits
Composante
Collège Sciences et Technologies pour l’Energie et l’Environnement (STEE)
Volume horaire
4,5h
Heures d'enseignement
Project : green chemistry - TD
Green Chemistry is the design of chemical products and processes that reduce or eliminate the use and generation of hazardous substances. In this, the course’s goal is to provide basic knowledge about the principles of green chemistry, with a basis in the molecular and materials chemistry, and examines alternative chemistry solutions to support a sustainable development. The level of understanding should be such that the students in their professional career critically can participate in discussions regarding selection and design of chemical methods (i.e., reactions, processes) for enlarged sustainability in industrial production of chemicals, materials and fuels, and to avoid environmental stress caused by pollution and energy-related problems. Students acquire the competence to think of chemistry as a sustainable activity. Basic knowledge in catalysis and organic chemistry is beneficial but not necessary. The course content will include a series of lectures using Power Point slides, case studies, exercises, in-class oral presentations by the students and a mini-project. Students should keep up with assigned reading and ask questions in-class or by email.
