RSE - Normes de management environnemental

RSE - Normes de management environnemental
Diplôme d'ingénieur de l'École et observatoire des sciences de la Terre (EOST)Parcours Diplôme d'ingénieur de l'EOST

ComposanteÉcole et observatoire des sciences de la Terre (EOST)

Description

INTRODUCTION : Tour d’horizon de l’ISO 26000 et 14001
I RSE
1 Quelles sont les définitions et les dimensions de la RSE?
2 Quelles sont les étapes de mises en place d’une démarche RSE?
3 Quelles sont les contraintes, solutions et limites de la mise en place d’une démarche RSE
II ISO 14001
1 Quelles sont les définitions et les dimensions de la 14001?
2 Quelles sont les étapes de mises en place de l’ISO14001?
3 Quelles sont les contraintes, solutions et limites de la mise en place de cette norme
CONCLUSION

INTRODUCTION: Overview of ISO 26000 and 14001
I CSR
1 What are the definitions and dimensions of CSR?
2 What are the steps for implementing a CSR approach?
3 What are the constraints, solutions and limits of implementing a CSR approach
II ISO 14001
1 What are the definitions and dimensions of the 14001?
2 What are the steps for implementing ISO14001?
3 What are the constraints, solutions and limits of implementing this standard
CONCLUSION

 

Compétences visées

Ce cours constitue une introduction de 6h à la RSE (Responsabilité Sociétale des Entreprises) et à la norme de Mangement Environnemental ISO 14001.

L’objectif est d’apporter des connaissances générales de la RSE et de l’ISO 14001

This course is a 6-hour introduction to CSR (Corporate Social Responsibility) and the ISO 14001 Environmental Management standard.

The objective is to provide general knowledge of CSR and ISO 14001

 

School regulations

The curriculum includes three years of study: admissions, the organisation of studies, assessments, placements and vivas, graduation and international exchanges are all explained in the current school rules (pdf).

First and second year courses

First and second year courses

  • General modules: mechanics, geology, mathematics, IT, digital analysis, signal processing, inverse methods.
  • Geophysical methods: physics of the Earth, seismology, seismic modelling and imaging, geodesy, gravimetry, potential methods, geomagnetism, electromagnetism, rock physics and fracture, hydrology.
  • Practical work: geophysical measurements in the field (photo) and in the laboratory, geology field placements in the Alps.
  • Languages and economic and social sciences: English, modern language 2, economics, industrial property, management, sustainable development, ethics, quality, company health and safety
  • IT and research projects, shared with the first year of the master’s degree
  • Summer placements at a laboratory or company, with numerous opportunities abroad (international placement contact: Mike Heap)

Third year course

Students have a choice of 3 specialisations in the third year:

  • Geophysics applied to the exploration and production of raw materials: seismic and hydrodynamic characterisation of reservoirs, seismic processing and interpretation, potential methods.
  • Geophysics applied to geotechnics: geotechnics and the resistance of materials applied in civil engineering, geomechanics, hydrogeophysics, electromagnetic methods, earthquake.
  • Hydrogeology, hydrogeochemistry, hydrogeophysics (HydroG3).

Additional teaching:

  • Languages and economic and social sciences: English, energy economy, company strategy and structure.
  • Geophysics field camp in Alsace (photo).  Here are images of a normal fault in the Rhine Graben taken by students.
  • 6-month industry placement culminating in the writing of a dissertation and a viva before a jury in order to obtain the engineering degree. The placements are carried out all over the world.