CES7AE Facing the challenge of sustainable development : industrial ecology
| ECTS Credits : 4 | CE36 | 6IC7CE6 Duration : 36 hours | ECTS Credits : 4 | Semester : S7 | ||
Person(s) in charge : Philippe SESSIECQ, Associate professor, philippe.sessiecq@mines-nancy.univ-lorraine.fr | |||||||
Keywords : Industrial ecology, sustainable development, life cycle analysis, waste recycling and recovery | |||||||
Prerequisites : first year course | |||||||
Objectives : Process engineering for industral ecology | |||||||
Program and content : The “end of pipe” approach or pollution transfer approach : - concepts of process engineering: material balance, energy balance, reactors - application to effluents treatment processes (liquid, solid and gaseous ones) - limits of these approaches From Sustainable Development to Regulated Adaptive Development - Conceptual framework of Industrial Ecology - Combination of systemic analysis and Life Cycle Analysis: “Overall Process” approach - Best available technologies: concept and limits - Ecodesign - Recycling: advantages and limits - Concept of secondary raw materials and new energetic vectors Case studies Multi-energy platform Energy recovery of biomass and CO2
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Abilities: | |||||||
Levels | Description and operational vocabulary | ||||||
Know | the equations describing global and local mass, energy and momentum balances. Conceptual framework of industrial ecology. | ||||||
Understand | The concepts driving process engineering and industrial ecology. The principle of pollution transfer | ||||||
Apply | Size industrial units for effluents treatment. | ||||||
Analyse | Evaluate environmental impacts and calculate sustainable development indicators leading to process and political choices. | ||||||
Summarise | Total redesign of industrial processes (energy, raw materials and products flows) towards a rational use of energy and effluents | ||||||
Assess |
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Evaluation : | |||||||
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