Semester 9 - 3rd year Chemical Engineering Degree - 2022-2023

Course label :	Apprenticeship assigment
Teaching departement :	CMA /
Teaching manager :	Mister ERIC BUISINE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	-

Education team

Teachers : Mister ERIC BUISINE
External contributors (business, research, secondary education): various temporary teachers

Summary

The learner carries out a mission within the framework of his professionalization contract. This mission is entrusted during the work-study period where the learner spends two days a week in a company. Two tutors, one industrial tutor and an academic tutor, provide personalized follow-up that they formalize in a follow-up notebook. This document allows to follow the progress of the learner's work in each of the targeted areas. The learner takes knowledge in consultation with the tutor of the planning and organization of his work and expected activities and behaviors within the company. Integration of the learner into the environment and the acquisition of professional skills in the workplace are regularly monitored during learner follow-up meeting. The progression in his missions in self-assessment of the learner allows to prepare these follow-up meetings. The mission in company is the subject of a final defense with an evaluation by a jury.

Educational goals

The learner carries out a mission in a company where he applies both his knowledge and skills in the professional framework of the professionalization contract. The theme and objectives of the mission are related to the specialized teaching units. The objectives are: Acquired knowledge: - Specific knowledge on the subject addressed Acquired skills : - Ability to implement an approach in order to analyze a problem in depth, - Ability to synthesize of results, - Project management (manage deadlines related to a project, develop a schedule, assess the time to devote to different tasks), - Ability to fit into an industrial team (use appropriate group work organization tools, take into account everyone's skills, manage any disagreements and conflicts), - Use office tools adequately to communicate a scientific research subject.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: The mission in the company is subject to regular monitoring by the industrial tutor and the academic tutor and is evaluated by a final defense with an assessment by a jury.

Online resources

Pedagogy

Hourly volume: 2 days (Thursday and Friday) per week in a company over the period September-February Language: French and / or English depending on the subject and the supervisor

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Solid knowledges in chemistry and "responsible company and management" (validation of semesters S5 to S8)

Maximum number of registrants

Remarks

Course label :	Biotechnology
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A2_1_1 - Bioprocédés

Education team

Teachers : Mister CHRISTOPHE DUJARDIN / Madam SOPHIE DUQUESNE
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	12
Number of hours - Tutorial :	4
Number of hours - Practical work :	10
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Green polymer processes
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A2_4 - Plasturgie verte

Education team

Teachers : Mister CHRISTOPHE DUJARDIN / Madam FABIENNE SAMYN
External contributors (business, research, secondary education): various temporary teachers

Summary

The green polymer processes course can be broken down into two parts. The first deals with the partial transformation of natural structures, such as starch and plastic proteins, and gives examples of applications. After presenting the specificities of these structures, the impact of these specificities on the properties of these natural polymers and therefore their limitations, their transformation by plastification is covered in detail. The second part presents innovative polymer processes, such as reactive extrusion and extrusion assisted by supercritical fluids. After reviewing basic concepts (extrusion, supercritical fluids, etc.), the specific features of these innovative processes are covered in detail, as well as their respective advantages and disadvantages. Case studies are then given to illustrate their use. The practical work sessions associated with this theoretical course give students the chance to solve a problem in project mode. The problem is presented to students prior to the sessions (e.g. proposing a synthesis method and using an edible starch film) and is accompanied by a few examples of scientific articles proposing solutions. On the basis of these articles or articles from their own research, students will propose a plan of experiments that they will carry out in the practical work room. They must then validate a protocol and propose a solution that solves the problem and makes it possible to achieve the expected properties.

Educational goals

At the end of this course, students should: - know how to transform a natural polymer to obtain a plastic material that can be used in an industrial environment. - know how to use innovative plastic processes (e.g. reactive extrusion and extrusion assisted by supercritical fluids) to implement and improve the properties of thermoplastics and reduce the environmental impact of plastic processes.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: The module is assessed based on the outcome of the practical work results. Students will present the approach followed and the results obtained to teachers and other groups. There will then be a critical discussion of the proposed solutions.

Online resources

Pedagogy

General concepts are covered using a traditional method (lectures). Course materials in PDF format are made available to students prior to the course on a sharing platform (Moodle, NextCloud, etc.). Carried out in project mode, practical work includes a simulation for creating a product based on a set of specifications (delivered as presentations).

Sequencing / learning methods

Number of hours - Lectures :	4
Number of hours - Tutorial :	0
Number of hours - Practical work :	4
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Module 7.2.2. Polymer formulation Module 8.2.1. Polymer physico-chemistry Module 8.3.A.3. Natural macromolecules Module 8.3.A.4. Recovery of organic matter

Maximum number of registrants

Remarks

Course label :	Modeling of engineering processes
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M8_A7_4 - Simul. num. des procédés

Education team

Teachers : Mister CHRISTOPHE DUJARDIN / Mister BERTRAND MOREL
External contributors (business, research, secondary education): various temporary teachers

Summary

The course begins with a reminder of the benefits of modelling in multi-physical problems, particularly in the case of chemical reactors. The three digital simulation methods are then presented: finite differences, finite volumes and finite elements. The main modelling stages are covered in detail: the definition of the problem, geometric construction, boundary conditions, mesh, solvers and post-processing. The lecture portion ends with the management of boundary conditions for hydrodynamic and then turbulent models. Students work in pairs on COMSOL software during tutorials. An initial exercise makes it possible for students to familiarise themselves with the interface of the code and to simultaneously make calculations by hand and with the code on a simple problem (thermal/electrical coupling on a conductor surrounded by plastic sheathing). Then several flow problems are handled with increasingly complex geometries (simple reactors, dissymmetrical reactors, baffle reactors, helix reactors) and the transfer function is calculated. The laminar approach is complemented by a k-epsilon turbulence model. The influence of the mesh is tested. Lastly, Navier-Stokes couplings with thermal systems conclude the tutorials.

Educational goals

At the end of this course, students should: 1/ better understand the different stages of digital simulation as well as its limitations. 2/ be able to use the COMSOL calculation code for calculations requiring couplings. 3/ calculate a transfer function of a hydrodynamic reactor.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Students are assessed during tutorials. Afterwards students write a report on the work carried out and the results obtained.

Online resources

Calculation PC at Ecole Centrale de Lille.

Pedagogy

Tutorial and PowerPoint presentation with the COMSOL calculation code.

Sequencing / learning methods

Number of hours - Lectures :	4
Number of hours - Tutorial :	6
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Students must have completed the process engineering course (C. Dujardin).

Maximum number of registrants

Remarks

Course label :	Reactors engineering-Intensification and clean technologies
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A2_2_1 - Génie réacteurs - réact. futur

Education team

Teachers : Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Limitations may occur when chemical reactions are made. In this course, students will learn different methods of process intensification that can lead to technological breakthroughs rather than simply improvements to existing processes.

Educational goals

Knowledge: - Understand the challenges of process intensification - Understand how commercial equipment works for process intensification, microstructured reactors and high-throughput screening equipment. Skills: - Be able to compare equipment performance and propose methods to intensify processes.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Individual preparation of a PowerPoint with comments illustrating aspects of the course through the analysis of a scientific publication.

Online resources

Pedagogy

Lectures and tutorials

Sequencing / learning methods

Number of hours - Lectures :	8
Number of hours - Tutorial :	4
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

- Homogeneous and heterogeneous reactors - Chemical engineering

Maximum number of registrants

Remarks

Course label :	Analytic techniques associated with environmental treatments
Teaching departement :	CMA /
Teaching manager :	Madam SOPHIE DUQUESNE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A3_4_1 - Tech. analyses assoc. environ.

Education team

Teachers : Madam SOPHIE DUQUESNE / Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	5
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Contaminated Soils treatment
Teaching departement :	CMA /
Teaching manager :	Madam SOPHIE DUQUESNE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A3_3_1 - Traitement des sols

Education team

Teachers : Madam SOPHIE DUQUESNE
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	8
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Treatment of gases
Teaching departement :	CMA /
Teaching manager :	Madam SOPHIE DUQUESNE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A3_1_1 - Traitement effluents gazeux

Education team

Teachers : Madam SOPHIE DUQUESNE
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	20
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Water treatment
Teaching departement :	CMA /
Teaching manager :	Madam SOPHIE DUQUESNE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A3_2_1 - Traitement de l'eau

Education team

Teachers : Madam SOPHIE DUQUESNE
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	16
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Advanced life cycle analysis
Teaching departement :	CMA /
Teaching manager :	Madam SOPHIE DUQUESNE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A1_5 - Analyse cycle de vie avancée

Education team

Teachers : Madam SOPHIE DUQUESNE / Mister OLIVIER GABUT
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	4
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Scientific cross interdisciplinary project
Teaching departement :	CMA /
Teaching manager :	Madam SOPHIE DUQUESNE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A4_1 - Projet transvers. scientifique

Education team

Teachers : Madam SOPHIE DUQUESNE / Madam FABIENNE SAMYN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	50
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Bioenergy
Teaching departement :	CMA /
Teaching manager :	Madam FABIENNE SAMYN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A1_3_1 - Bioénergies

Education team

Teachers : Madam FABIENNE SAMYN / Madam MIRELLA VIRGINIE
External contributors (business, research, secondary education): various temporary teachers

Summary

Part I: Gasification of biomass for the production and recovery of synthetic gas: Twelve hours - The principle of gasification, the chemistry of gasification, the characteristics of biomass for gasification (content of energy and density, moisture content), formed by-products (dust and tar), gasification systems (fixed bed, fluidised bed, entrained flow, and plasma gasification systems) - Synthetic gas purification techniques (associated with the composition of the raw material, and associated with the production process) - Transformation of synthetic gas (production of methane, methanol, production of liquid fuels, Fischer-Tropsch synthesis) - Examples of existing biomass gasification technologies (Rentech, Gussing gasifier, EON-SNG, UCG process, etc.) Part II: Methanisation (anaerobic digestion): recovery of organic waste: Twelve hours The lectures, tutorials and visit to a methanisation centre are all in English. This part of the Bioenergies course will cover the details of methanisation challenges and principles. The following points will be covered: - The composition of biogas (the composition of the raw material and the production process); - The different types of digesters (how they work, etc..); - The energy uses of gas (heat production, cogeneration systems, injection into the natural gas network, bio-methane fuel for vehicles); - The purification of biogas (adsorption, water purification, physical adsorption, chemical adsorption, membrane technology, elimination of hydrogen sulphide, siloxanes, nitrogen, ammonia); - Environmental considerations; - Visit of a methanisation centre for the application of the concepts seen in class.

Educational goals

The objectives of the "Methanisation (anaerobic digestion): recovery of organic waste" part of the course are as follows: - Understand the principles of methanisation and know the existing technologies; - Know the operating parameters of a digester; - Know the means for recovering biogas and digestate from methanisation - Know how to estimate the size of a methanisation project.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Assessments for the Bioenergy course are in English. Assessments consist of: - a two-hour written exam (one hour and 15 minutes for part I, and 45 minutes for part II) - a group report on the "methanisation (anaerobic digestion): recovery of organic waste" part of the course. This report may cover a mini-project and/or a separate report on the visit to the methanisation centre.

Online resources

No online resources.

Pedagogy

Lectures will be taught with the projection of slides. The slides will be in English. No course materials are distributed. Students will only be able to take notes. Students will travel by coach to visit a methanisation centre for a half-day.

Sequencing / learning methods

Number of hours - Lectures :	14
Number of hours - Tutorial :	4
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

- Validation of the Physical Chemistry course unit in semester 5 - Validation of the Chemical Engineering course unit in semesters 5, 6 and 7 - Validation of the Organic Chemistry course unit in semester 7 - Validation of the Catalysis course unit in semester 7 - Validation of the Processes and Bioprocesses course unit in semester 8 - Validation of the Molecular and Macromolecular Chemistry course unit in semester 8

Maximum number of registrants

Remarks

Course label :	Polymers and biosourced composites
Teaching departement :	CMA /
Teaching manager :	Madam FABIENNE SAMYN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A1_1 - Polym. & composites biosourcés

Education team

Teachers : Madam FABIENNE SAMYN / Mister OLIVIER GABUT
External contributors (business, research, secondary education): various temporary teachers

Summary

The course is divided into two parts covering renewable plastics (ten hours, Mr Gabut) and biocomposites (four hours, Ms Samyn). The course on renewable plastics follows and completes the engineering programme's second-year course on the main natural macromolecules (starch, cellulose and cellulose derivatives, and proteins). It begins by presenting and discussing data related to the world of renewable energy, then it addresses and defines the different categories of plastic materials with environmental connotations (biodegradable, biopolymer, bioplastic, and biosourced plastics) and specifies the methods used to obtain them, the advantages and the disadvantages. The approach involves the screening of a documentary with a post-it session during which students brainstorm critical opinions. It ends with a presentation of the plastic materials actually present on the market with examples of applications and samples of materials and products. After that, the use of bio-sourced resources for composite design is also covered in this module (four hours). The aim is to show through examples the properties and parameters to be taken into account when designing such materials in order to make them into high-performance materials. After an introduction presenting the context and defining the vocabulary relating to bio-sourced composites, a state of the art on the types of usable fibres and their properties is first presented to the students. The techniques for using bio-sourced composites are then presented, emphasising the challenges that need to be overcome. Details on the importance of fibre/matrix adhesion, in particular, are given by comparing the properties of composites made with functionalised or non-functionalised fibres. A brief description will be given on the techniques specific to the surface characterisation of the fibres.

Educational goals

The aim is to present in a non-exhaustive manner the field of renewable plastics and the way in which natural fibres can be enhanced in composite applications, accentuating the strengths and weaknesses of these different materials. Students who have completed this module will be able to think critically with regards to renewable, bio-composite plastics and their properties. They will be able to understand the relevant scientific publications.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: The module will be assessed through role play. Divided into different groups, students are given a general theme related to the concepts discussed in class and a position to be defended in relation to the theme. They must therefore debate among themselves by opposing relevant arguments via opposing and supporting groups formed during the preparation phases.

Online resources

Pedagogy

General concepts are covered using a traditional method (lectures), interspersed with questions from students and discussions based on scientific articles. Course materials in PDF format are sent by email to students prior to the course (other formats are available on request).

Sequencing / learning methods

Number of hours - Lectures :	14
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Validation of the Molecular and Macromolecular Chemistry course unit in semester 8.

Maximum number of registrants

Remarks

Course label :	Rare earths and metals recovery
Teaching departement :	CMA /
Teaching manager :	Madam FABIENNE SAMYN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A1_4_1 - Extract. mét. et terres rares

Education team

Teachers : Madam FABIENNE SAMYN / Mister BERTRAND MOREL
External contributors (business, research, secondary education): various temporary teachers

Summary

The use of metals has changed significantly in recent decades in terms of the quantity used and the complexity of objects. The exhaustion of primary materials and their carbon footprint are important drivers that are leading to the development of recycling. The course begins with several definitions: the concept of a strategic material, overall recycling rates and recycling rates at the end of life, material/environmental and carbon footprints, economic and regulatory criteria, collection aspects. Then the extraction processes for primary materials are reviewed (pyrometallurgy, hydrometallurgy, hybrid processes). The application to secondary materials (at the end of life or primary scraps) is presented through several examples. Remelting is covered in a specific chapter, and aluminium is detailed according to the different alloys. The thermodynamics of the concept of slag are covered in depth. Recycling via pyrometallurgy is then discussed in detail, with copper and precious metals as the main examples. Lastly, recycling via hydrometallurgy and liquid extraction technologies are studied in detail, with rare earths and spent nuclear fuel used as examples. Many exercises are given throughout the course, such as phase equilibrium calculations.

Educational goals

On current subjects (critical metals and independence, the increasing scarcity of primary materials, the collection circuit, and regulations), the objective is to master the basics of recycling processes, going from the simplest (remelting) to the most complex (hydro).

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Based on one or two case studies (a scientific publication), a one-hour exam on the process described.

Online resources

PowerPoint support materials are provided.

Pedagogy

It is recommended students read the course materials beforehand.

Sequencing / learning methods

Number of hours - Lectures :	6
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Students will need to know the concepts of thermodynamics, wet chemistry and chemical engineering (as acquired in the first two years [1A and 2A]).

Maximum number of registrants

Remarks

Course label :	Recycling of polymer materials
Teaching departement :	CMA /
Teaching manager :	Madam FABIENNE SAMYN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_A1_2_1 - Recycl. matériaux polymères

Education team

Teachers : Madam FABIENNE SAMYN / Madam SOPHIE DUQUESNE / Mister OLIVIER GABUT
External contributors (business, research, secondary education): various temporary teachers

Summary

CHAPTER 1. INTRODUCTION ￜ CURRENT STATE OF RECYCLING IN FRANCE AND EUROPE (REGULATIONS, KEY FIGURES, ETC.): - Key figures - Regulations - Issues: Why recycle end-of-life materials? CHAPTER 2. THE DIFFERENT SORTING TECHNIQUES: - Mechanical sorting methods (screening, trommel, etc.) - Aeraulic separators - Hydraulic classification - Electrostatic and triboelectric separator - Sorting methods based on identification CHAPTER 3. CHEMICAL RECYCLING PROCESSES: - Pyrolysis - Solvolysis: glycolysis, hydrolysis, methanolysis, ammonolysis - Reactive extrusion CHAPTER 4. MECHANICAL RECYCLING PROCESSES: - Single-material vs. multi-material recycling - Degradation of polymers and remedies for degradation - Polymer mixtures - Examples of recovery: automotive sector CHAPTER 5. RECYCLING PROCESSES FOR COMPOSITE MATERIALS: - Thermal recovery of composites (incineration, thermolysis) - Material recovery (chemical recycling, grinding-micronisation) - Mixed recovery (co-combustion in cement works, heat treatment in fluidised bed boilers, high temperature pyrolysis) The practical work sessions associated with this theoretical course provide students with the opportunity to solve a problem in project mode. The problem is presented to students prior to the sessions (e.g. proposing a PET chemical recovery process) and is accompanied by a few examples of scientific articles proposing solutions. On the basis of these articles or articles from their own research, students will propose a plan of experiments that they will carry out in the practical work room. They must then carry it out while varying the parameters in order to validate a protocol and to be able to propose a solution that solves the problem and makes it possible to achieve the expected properties.

Educational goals

Introduce students to the recycling of plastics and composites, and the associated processes. At the end of this course, students will have a good understanding of issues related to the recycling of plastic materials, will have identified the challenges and will be able to propose recycling processes adapted to the planned flow (e.g. polypropylene from end-of-life vehicles).

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: The module is assessed based on the outcome of the practical work results. Students will present the approach followed and the results obtained to teachers and other groups. There will then be a critical discussion of the proposed solutions.

Online resources

PDF course materials are made available to students prior to the course on a sharing platform (Moodle, NextCloud, etc.). Printouts may be provided upon request.

Pedagogy

General concepts are covered using a traditional method (lectures). Carried out in project mode, practical work includes a simulation for creating a product based on specifications (delivered as presentations).

Sequencing / learning methods

Number of hours - Lectures :	12
Number of hours - Tutorial :	0
Number of hours - Practical work :	4
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Module 7.2.2. Polymer formulation Module 8.2.1. Polymer physico-chemistry Module 8.3.A.4. Recovery of organic matter

Maximum number of registrants

Remarks

Course label :	Apprenticeship assigment
Teaching departement :	CMA /
Teaching manager :	Mister ERIC BUISINE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	-

Education team

Teachers : Mister ERIC BUISINE
External contributors (business, research, secondary education): various temporary teachers

Summary

The learner carries out a mission within the framework of his professionalization contract. This mission is entrusted during the work-study period where the learner spends two days a week in a company. Two tutors, one industrial tutor and an academic tutor, provide personalized follow-up that they formalize in a follow-up notebook. This document allows to follow the progress of the learner's work in each of the targeted areas. The learner takes knowledge in consultation with the tutor of the planning and organization of his work and expected activities and behaviors within the company. Integration of the learner into the environment and the acquisition of professional skills in the workplace are regularly monitored during learner follow-up meeting. The progression in his missions in self-assessment of the learner allows to prepare these follow-up meetings. The mission in company is the subject of a final defense with an evaluation by a jury.

Educational goals

The learner carries out a mission in a company where he applies both his knowledge and skills in the professional framework of the professionalization contract. The theme and objectives of the mission are related to the specialized teaching units. The objectives are: Acquired knowledge: - Specific knowledge on the subject addressed Acquired skills : - Ability to implement an approach in order to analyze a problem in depth, - Ability to synthesize of results, - Project management (manage deadlines related to a project, develop a schedule, assess the time to devote to different tasks), - Ability to fit into an industrial team (use appropriate group work organization tools, take into account everyone's skills, manage any disagreements and conflicts), - Use office tools adequately to communicate a scientific research subject.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: The mission in the company is subject to regular monitoring by the industrial tutor and the academic tutor and is evaluated by a final defense with an assessment by a jury.

Online resources

Pedagogy

Hourly volume: 2 days (Thursday and Friday) per week in a company over the period September-February Language: French and / or English depending on the subject and the supervisor

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Solid knowledges in chemistry and "responsible company and management" (validation of semesters S5 to S8)

Maximum number of registrants

Remarks

Course label :	Advanced characterisation techniques of dispersed materials
Teaching departement :	CMA /
Teaching manager :	Madam VERONIQUE RATAJ
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B2_3 - Techn. caract. syst. dispersés

Education team

Teachers : Madam VERONIQUE RATAJ / Mister JEAN-FRANCOIS DECHEZELLES
External contributors (business, research, secondary education): various temporary teachers

Summary

1. Determine the phase inversion temperature of an emulsion using conductivity and rheology. 2. Determine the diffusion coefficient of SDS (sodium dodecyl sulphate) using DOSY NMR. 3. Measure a contact angle using the static drop method. 4. Measure the interfacial tension between two liquids using the pendant drop method. 5. Study the influence of process variables on the drop size of an O/W emulsion. 6. Measure particle size using laser granulometry (static and dynamic light scattering (DLS)) 7. Measure the Zeta potential of particles.

Educational goals

At the end of these practical work sessions, students will be able to perform the physico-chemical measurements most frequently used in formulations to characterise liquid/liquid and solid/liquid interfaces: Students will therefore be able to: - Measure the phase inversion temperature of an emulsion (using conductivity and rheology). - Measure a contact angle using the static drop method, with the aim of determining the solid's surface energy. - Measure the interfacial tension between two liquids using the pendant drop method. - Measure the size of particles using laser granulometry ((static and dynamic light scattering [DLS]), and know the best-suited technique (advantages and disadvantages). - - Measure the Zeta potential of particles.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Submit a report

Online resources

1. Rosen, M. J. "Surfactants and interfacial phenomena". (Wiley-Interscience, 2004). 2. Salager, J.-L., Antï¿œn, R. E., Anderez, J. M. & Aubry, J.-M. "Formulation des micro-ï¿œmulsions par la mï¿œthode HLD" (Formulation of microemulsions using the HLD method). Encyclopedia Tech. Ingï¿œn. Vol Gï¿œnie Procï¿œdï¿œs 157 (2001) (Engineering techniques encyclopedia, process engineering volume). 3. Lindman, B., & Friberg, S. E. "Microemulsionsï¿œa historical overview. Handbook of microemulsion science and technology." Basel, New York: Dekker, 1-12. (1999) 4. Anton, R., Salager, J.-L. & Aubry, J.-M. "Formulation des Emulsions par la Mï¿œthode du HLD" (Formulation of Emulsions using the HLD Method). Ed Tech. Ing. (2001) (Engineering techniques edition).

Pedagogy

For this course, the teacher and students constantly interact for the entire duration of the practical work.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	16
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Basic organic chemistry and the Physico-Chemistry of Formulations course 7.2.1 in semester 7

Maximum number of registrants

Remarks

Course label :	Transversal project in formulation
Teaching departement :	CMA /
Teaching manager :	Madam VERONIQUE RATAJ
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B4_2 - Projet transvers. scientifique

Education team

Teachers : Madam VERONIQUE RATAJ / Mister CHRISTEL PIERLOT / Mister JEAN-FRANCOIS DECHEZELLES / Mister JESUS ONTIVEROS ONTIVEROS
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	28
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Characterisation and elaboration of emulsions
Teaching departement :	CMA /
Teaching manager :	Madam VERONIQUE RATAJ
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B1_3 - Caract. et élaborat. émulsions

Education team

Teachers : Madam VERONIQUE RATAJ / Mister CHRISTEL PIERLOT
External contributors (business, research, secondary education): various temporary teachers

Summary

1. Emulsion formation 2. Destabilisation of an emulsion (creaming/sedimentation, Ostwald ripening, flocculation, coalescence) 3. Emulsions and microemulsions 4. Superficial and interfacial tensions (Marangoni effect, Laplace's law, Jurin's law) 5. Physico-chemistry of emulsifiers 6. Emulsion formulation strategy (surfactant selection criteria, Griffin's HLB , HLB method, Winsor Fish Diagrams, HLD approach) 7. Emulsification processes (transitional phase inversion, catastrophic) 8. Case study (cosmetic and polymer emulsions, bitumens, etc.)

Educational goals

At the end of the course, students will be able to: - Recognise the nature of an emulsion, know how to characterise it through physico-chemical analyses - Differentiate between an emulsion and a microemulsion, recognise destabilisation mechanisms - Develop a strategy for choosing a surfactant and the process for formulating an emulsion - Know how to interpret a formulation/composition conceptual map

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Written exam (one hour) or presentation of projects

Online resources

Rosen, M. J. "Surfactants and interfacial phenomena". (Wiley-Interscience, 2004). Anton, R., Salager, J.-L. & Aubry, J.-M. "Formulation des Emulsions par la Mï¿œthode du HLD" (Formulation of Emulsions using the HLD Method). Ed Tech. Ing. (2001).

Pedagogy

Course handouts provided to students, and lecture PowerPoint presentation

Sequencing / learning methods

Number of hours - Lectures :	10
Number of hours - Tutorial :	5
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Basic organic chemistry and the Physico-Chemistry of Formulations course 7.2.1 in semester 7

Maximum number of registrants

Remarks

Course label :	Colloï¿œds ((Physical-chemistry and industrial applications)
Teaching departement :	CMA /
Teaching manager :	Madam VERONIQUE RATAJ
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B1_1 - Colloïdes physicochim. applic.

Education team

Teachers : Madam VERONIQUE RATAJ / Mister JESUS ONTIVEROS ONTIVEROS
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	10
Number of hours - Tutorial :	5
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Formulation and processes (Experimental)
Teaching departement :	CMA /
Teaching manager :	Madam VERONIQUE RATAJ
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B1_4 - Formulation & procédés (exp.)

Education team

Teachers : Madam VERONIQUE RATAJ / Mister CHRISTEL PIERLOT / Mister JESUS ONTIVEROS ONTIVEROS
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	24
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Microemulsions (Formulation with the HLD method)
Teaching departement :	CMA /
Teaching manager :	Madam VERONIQUE RATAJ
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B1_2 - Microémuls. Formu. méthode HLD

Education team

Teachers : Madam VERONIQUE RATAJ / Mister JESUS ONTIVEROS ONTIVEROS
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	10
Number of hours - Tutorial :	5
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Complex fluids rheology
Teaching departement :	CMA /
Teaching manager :	Madam NOURIA FATAH
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B3_1 - Rhéologie fluides complexes

Education team

Teachers : Madam NOURIA FATAH
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	10
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Conferences (detergents, cosmetics, perfumes, paints, raw materials)
Teaching departement :	CMA /
Teaching manager :	Madam NOURIA FATAH
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B3_5 - Conférences

Education team

Teachers : Madam NOURIA FATAH / Mister CHRISTEL PIERLOT
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	5
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Engineering of mixtures
Teaching departement :	CMA /
Teaching manager :	Madam NOURIA FATAH
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B3_2_1 - Génie des mélanges

Education team

Teachers : Madam NOURIA FATAH
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	10
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Powder technology
Teaching departement :	CMA /
Teaching manager :	Madam NOURIA FATAH
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B3_3 - Technologies des poudres

Education team

Teachers : Madam NOURIA FATAH
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	10
Number of hours - Tutorial :	0
Number of hours - Practical work :	9
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Advanced experimental designs and principal component analysis
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTEL PIERLOT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B2_2_1 - Plans exp. avancés & ACP

Education team

Teachers : Mister CHRISTEL PIERLOT
External contributors (business, research, secondary education): various temporary teachers

Summary

Lesson (5h): -Advanced experimental design -design matrix with factorswith more than 3 levels - Custom matrix, with constraints, construction by exchange algorithm - Principal Component Analysis (PCA) TD (5h): -In classroom Realization of experiment plans with constraints (optimization of a cocktail with fruit juices by sensory evaluation) -On computer: Use of softwares (experiment design and PCA)

Educational goals

To provide the necessary knowledge to design and analyze : -Advanced experience designs (custom matrix, construction by exchange algorithm) -A classic statistical analysis method: Principal Component Analysis (PCA).

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Computer room exam (2h) using 2 softwares (experiment plans and PCA)

Online resources

Techniques de l'Ingï¿œnieur : Analyse des donnï¿œes ou statistique exploratoire multidimensionnelle, Philippe BESSE, Alain BACCINI, AF620 (2011).

Pedagogy

Distribution of a course manuscript, power point presentation

Sequencing / learning methods

Number of hours - Lectures :	5
Number of hours - Tutorial :	5
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Course of classical experiment designs(screening matrices, factorials, fractional, Simplex, Response surfaces) Experiment design course C7.2.3 Classical statistics course (mean, variance, standard deviation, normal distribution, etc.) Applied statistics and Data processing C5.6.3

Maximum number of registrants

Remarks

Course label :	Experimental design of mixtures
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTEL PIERLOT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B2_1 - Plans d'expérience de mélanges

Education team

Teachers : Mister CHRISTEL PIERLOT
External contributors (business, research, secondary education): various temporary teachers

Summary

1. Introduction 2. Details of the approach 3. Scheffￜ Simplex Networks 4. Scheffￜ Simplex Networks (centroids) 5. Axial matrices 6. Mixtures with constraints

Educational goals

To provide basic notions for designing and analyzing experimental design mixtures

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Assessment: submission of a report (15 pages) and oral presentation (12 min) on a project to optimize recipes (chocolate mousses, marshmallows,nougat, ...) by the method of experimental designs (classic or mixtures)

Online resources

Bibliographical references: Techniques de l'ingï¿œnieur : Planification d'expï¿œriences en formulation, Didier MATHIEU, Roger PHAN-TAN-LUU, J2241, (2001).

Pedagogy

Distributed lecture notes, course on power point

Sequencing / learning methods

Number of hours - Lectures :	8
Number of hours - Tutorial :	2
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Classical experimental design (screening matrix ,factorial and fractional factorial matrix, Simplex, Surfaces responses). Experimental design course C7.2.3

Maximum number of registrants

Remarks

Course label :	Lab : Formulation of polymers and coatings
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTEL PIERLOT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B2_5 - Polymères en formulation (exp)

Education team

Teachers : Mister CHRISTEL PIERLOT / Mister FREDERIC CAZAUX
External contributors (business, research, secondary education): various temporary teachers

Summary

Handling of tools to characterize paint coatings: thickness, adhesion, gloss, color, covering power, scratches. Determination of a minimum film formation temperature (MFFT) using equipment. Classical rheology of coatings. Characterization of paints by thermogravimetric analysis (ATG) and by water vapor adsorption gravimetry (or DVS for Dynamic Vapor Sorption)

Educational goals

To know how to characterize coatings: thickness, adhesion, gloss, color, covering power, scratches. To know how to determinatie a minimum film formation temperature (MFFT) using equipment. To know how to use rheometer to do classical rheology analysis of paints. To know how to characterize of paints by thermogravimetric analysis (ATG) and by water vapor adsorption gravimetry (or DVS for Dynamic Vapor Sorption)

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: submission of a report

Online resources

Pedagogy

1 student for one experimental work

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	4
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Cours of Formulation of coating in the 3rd year (C.9.2.B.4)

Maximum number of registrants

Remarks

One student per practical work

Course label :	Lab : Formulation of polymers and coatings
Teaching departement :	CMA /
Teaching manager :
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B2_4 - Polymères en formulation (exp)

Education team

Teachers : / Mister CHRISTEL PIERLOT / Mister FREDERIC CAZAUX
External contributors (business, research, secondary education): various temporary teachers

Summary

Handling of tools to characterize paint coatings: thickness, adhesion, gloss, color, covering power, scratches. Determination of a minimum film formation temperature (MFFT) using equipment. Classical rheology of coatings. Characterization of paints by thermogravimetric analysis (ATG) and by water vapor adsorption gravimetry (or DVS for Dynamic Vapor Sorption)

Educational goals

To know how to characterize coatings: thickness, adhesion, gloss, color, covering power, scratches. To know how to determinatie a minimum film formation temperature (MFFT) using equipment. To know how to use rheometer to do classical rheology analysis of paints. To know how to characterize of paints by thermogravimetric analysis (ATG) and by water vapor adsorption gravimetry (or DVS for Dynamic Vapor Sorption)

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: submission of a report

Online resources

Pedagogy

1 student for one experimental work

Sequencing / learning methods

Number of hours - Lectures :	5
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Cours of Formulation of coating in the 3rd year (C.9.2.B.4)

Maximum number of registrants

Remarks

One student per practical work

Course label :	Paints and varnishes formulation
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTEL PIERLOT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B4_1 - Formulation peintures & vernis

Education team

Teachers : Mister CHRISTEL PIERLOT
External contributors (business, research, secondary education): various temporary teachers

Summary

1) Resins: Polyesters, Alkyd, Polyurethanes, Epoxides 2) Drying mechanism of the paint film. 3) The pigments (organic and inorganic) 4) Formulation of paints 5) Discussion of orientation formula 6) Exercises Calculation of dry matter, of pigment volume concentration

Educational goals

To provide the basic notions to design, characterize and prepare paints and varnish encountered in formulation Industries.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Assessment: Test without documents, 1 h

Online resources

Bibliographical references: Techniques de l'ingï¿œnieur : Formulation des peintures - Physico-chimie et matiï¿œres pulvï¿œrulentes, Jean-Claude LAOUT, J2270 (2005).

Pedagogy

Media: Distributed lecture notes, course on power point

Sequencing / learning methods

Number of hours - Lectures :	10
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Contents: classical organic and polymer chemistry courses

Maximum number of registrants

Remarks

Course label :	Rheological agents
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTEL PIERLOT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_B4_3 - Agents rhéologiques

Education team

Teachers : Mister CHRISTEL PIERLOT / Mister JESUS ONTIVEROS ONTIVEROS
External contributors (business, research, secondary education): various temporary teachers

Summary

485/5000 1. Introduction: Rheological agents. Rheology (Definition, functional properties; Types of rheological behavior; Rheology of emulsions). 2. Hydrocolloids I (General; Starch, Gelatin, Xanthan Gum, Alginates, Carboxyl methyl cellulose, Carrageenan. Structure and applications). 3. Hydrocolloids II (Polymers, Structure and applications, Surfactant-Polymer Interaction). 4. Other rheological agents (Salt-Surfactant Interaction, Aluminosilicates, Organogels)

Educational goals

This course aims to introduce the student to the field of rheological agents and to make him acquire the general concepts which will allow him to modulate the viscosity of the formulated products. At the end of the course, the student will be able to: -Name the main rheological agents and describe the phenomena related to their application. - Interpret the most important factors in the use of polysaccharides (starch, xanthan gum, alginates, carrageenan), gelatin, synthetic polymers (acrylates, polyethylene glycol) and aluminosilicates as rheological agents - Explain the influence of polymer-surfactant interactions and the effect of salinity in the viscosity of their aqueous solutions

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Written exam (1h)

Online resources

Imeson, A. (Ed.). (2011). Food stabilisers, thickeners and gelling agents. John Wiley & Sons. Braun, D. D., & Rosen, M. R. (2013). Rheology Modifiers Handbook: Practical Use and Application. Elsevier. Le Neindre B., Cancouï¿œt P., (2011). Formulation des polymï¿œres synthï¿œtiques en cosmï¿œtique, Techniques de l' ingï¿œnieur, J2190 v1.

Pedagogy

Distributed manuscript, power point course

Sequencing / learning methods

Number of hours - Lectures :	6
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

(basic organic chemistry, basic polymer chemistry]

Maximum number of registrants

Remarks

Course label :	Apprenticeship assignment
Teaching departement :	CMA /
Teaching manager :	Mister ERIC BUISINE
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	-

Education team

Teachers : Mister ERIC BUISINE
External contributors (business, research, secondary education): various temporary teachers

Summary

The learner carries out a mission within the framework of his professionalization contract. This mission is entrusted during the work-study period where the learner spends two days a week in a company. Two tutors, one industrial tutor and an academic tutor, provide personalized follow-up that they formalize in a follow-up notebook. This document allows to follow the progress of the learner's work in each of the targeted areas. The learner takes knowledge in consultation with the tutor of the planning and organization of his work and expected activities and behaviors within the company. Integration of the learner into the environment and the acquisition of professional skills in the workplace are regularly monitored during learner follow-up meeting. The progression in his missions in self-assessment of the learner allows to prepare these follow-up meetings. The mission in company is the subject of a final defense with an evaluation by a jury.

Educational goals

The learner carries out a mission in a company where he applies both his knowledge and skills in the professional framework of the professionalization contract. The theme and objectives of the mission are related to the specialized teaching units. The objectives are: Acquired knowledge: - Specific knowledge on the subject addressed Acquired skills : - Ability to implement an approach in order to analyze a problem in depth, - Ability to synthesize of results, - Project management (manage deadlines related to a project, develop a schedule, assess the time to devote to different tasks), - Ability to fit into an industrial team (use appropriate group work organization tools, take into account everyone's skills, manage any disagreements and conflicts), - Use office tools adequately to communicate a scientific research subject.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: The mission in the company is subject to regular monitoring by the industrial tutor and the academic tutor and is evaluated by a final defense with an assessment by a jury.

Online resources

Pedagogy

Hourly volume: 2 days (Thursday and Friday) per week in a company over the period September-February Language: French and / or English depending on the subject and the supervisor

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Solid knowledges in chemistry and "responsible company and management" (validation of semesters S5 to S8)

Maximum number of registrants

Remarks

Course label :	Scientific cross interdisciplinary project
Teaching departement :	CMA /
Teaching manager :	Mister JEAN-BERNARD VOGT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C4_1 - Projet transvers. scientifique

Education team

Teachers : Mister JEAN-BERNARD VOGT / Madam NOURIA FATAH / Mister CHARAFEDDINE JAMA / Mister JEREMIE BOUQUEREL
External contributors (business, research, secondary education): various temporary teachers

Summary

Each teacher for this elective, and more generally for the field of "Materials Science", can give to a group of two or two students a problem associated with a distinct specificity (surface treatment, metallurgy, crystal chemistry, materials for catalysis, materials for chemical engineering, computer-assisted selection of a material for a given application, etc.). The project takes place within the relevant laboratories and may be associated with a company in the industrial sector. The project includes a bibliographic analysis of the problem raised, a proposal and then the implementation of an experimental method to try to resolve it and a summary of the results obtained. The summary is written in the form of a condensed report and presented orally to the students and teachers for the elective. Laboratories involved: Catalysis and Solid Chemistry unit Materials and Transformations unit

Educational goals

Learn how to solve a practical material problem by defining a work plan, taking into account safety and time management.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Documents specific to the project acquired during the bibliographic analysis.

Pedagogy

Students are divided into groups of three and choose one of the projects proposed by a teacher. The work is carried out in the laboratory on Thursdays and Fridays under the supervision of a teacher.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	6
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Materials science, materials chemistry, and analysis techniques at the M2 (the second year of a master's degree) level.

Maximum number of registrants

Remarks

Course label :	Microstructure investigation techniques
Teaching departement :	CMA /
Teaching manager :	Mister JEREMIE BOUQUEREL
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C3_2 - Techniques d'analyse avancées

Education team

Teachers : Mister JEREMIE BOUQUEREL / Madam ANNE-SOPHIE MAMEDE
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	14
Number of hours - Tutorial :	8
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Numerical tools for materials selection
Teaching departement :	CMA /
Teaching manager :	Mister JEREMIE BOUQUEREL
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C3_1_1 - Outils num. pour choix matér.

Education team

Teachers : Mister JEREMIE BOUQUEREL / Madam CHARLOTTE BECQUART
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	4
Number of hours - Tutorial :	4
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Practical use of finite elements method
Teaching departement :	CMA /
Teaching manager :	Mister JEREMIE BOUQUEREL
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C1_2 - Utilis. méthode éléments finis

Education team

Teachers : Mister JEREMIE BOUQUEREL
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	6
Number of hours - Tutorial :	14
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Damage and reliability of materials
Teaching departement :	CMA /
Teaching manager :	Mister JEAN-BERNARD VOGT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C1_1 - Dégradation & fiabilité matér.

Education team

Teachers : Mister JEAN-BERNARD VOGT
External contributors (business, research, secondary education): various temporary teachers

Summary

The different fracture mechanisms of structural materials are explained. The course consists of five main chapters: - Introduction: fracture and failure, what's the difference? the different types of damage in various industrial sectors - influence of temperature and stress on the different types of fractures: cleavage, ductile fracture, creep fracture, fracture map - fatigue fracture: onset and growth; cyclic accommodation, fatigue resistance diagrams, dislocation structures, short cracks, the different long crack growth models, plasticity at the bottom of the crack, closure effect - fracture mechanisms assisted by the environment: stress corrosion, hydrogen embrittlement, liquid metal embrittlement, irradiation embrittlement, corrosion fatigue - wear damage mechanism: adhesion, erosion, abrasion

Educational goals

The aim of the course is to understand the damage mechanisms of structural materials (in particular those used in the chemical industry and the energy and transport industries) resulting from mechanical loadings and a corrosive environment. The purpose of the course is to show the importance of the microstructure regarding these types of damage. Students will be able to use this knowledge to solve component failure assessments, which are useful for the safety of industrial installations. They will be able to: - identify the nature of the damage to a material in service - identify a fracture type on a worn-out component in service - explain the cause of damage to a component in service - suggest the most suitable material to optimise reliability

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: There is a joint exam with the "high-performance materials" course.

Online resources

"Mechanical behavior of materials". Thomas H. Courtney. McGraw-Hill Publishing Company (1990). "Stress-Corrosion cracking: materials performance and evaluation". Russel H. Jones. ASM International (1992). "Solution to Hydrogen Attack in Steels". P.F. Timmins. ASM International (1997).

Pedagogy

There is a PowerPoint for the lectures and the slides are in English. There are photocopies of the lectures.

Sequencing / learning methods

Number of hours - Lectures :	20
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Metallurgy, mechanical properties, corrosion, industrial analytical chemistry

Maximum number of registrants

Remarks

To illustrate these types of damage, students work on case studies.

Course label :	End of life materials
Teaching departement :	CMA /
Teaching manager :	Mister JEAN-BERNARD VOGT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C2_3 - Matériaux en fin de vie

Education team

Teachers : Mister JEAN-BERNARD VOGT / Madam CAROLINE PIROVANO / Madam SOPHIE DUQUESNE
External contributors (business, research, secondary education): various temporary teachers

Summary

Against the global backdrop of waste management and in compliance with sustainable development criteria, the aim of this course is to present, from a technical, legislative and economic point of view, the main recycling and recovery channels for the main families of materials (ferrous and non-ferrous metals, glass, plastics, etc.) and the main end-of-life product channels (end-of-life vehicles, electrical and electronic equipment waste, etc.). - The global context of waste and recovery (definitions, type of waste, legislation, etc.). - The various heat treatments for waste and the associated recovery. - Recycling of ferrous and non-ferrous metals. - Recycling of polymer materials. - Recycling of glass. - End-of-life products.

Educational goals

Address the issue of material recycling, both from the point of view of waste treatment legislation and the technical aspects: identification of the different material and end-of-life product recycling channels, identification of critical and strategic materials, basic knowledge of methods for recovering materials and end-of-life products and the treatment of pollution associated with these operations.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Preparation and presentation of one report per group. Individual assessment of the various reports presented.

Online resources

- ADEME (French Ecological Transition Agency) publications - "Techniques de l'Ingï¿œnieur" (Engineering techniques) publications - "Guide du traitement des dï¿œchets" (Waste treatment guide). A. Damien. Third edition, L'Usine Nouvelle, Dunod, 2004. - "Traitement des pollutions industrielles" (Treatment of industrial pollution). E. Koller. Second edition, L'Usine Nouvelle, Dunod, 2009. - "Dï¿œchets et ï¿œconomie circulaire" (Waste and the circular economy). M.-A. Marcoux, F. Olivier, F. Thï¿œry. Record, Lavoisier Tec & Doc, 2016.

Pedagogy

Course handouts and students' reports are sent in PDF format.

Sequencing / learning methods

Number of hours - Lectures :	14
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

General knowledge of chemistry

Maximum number of registrants

Remarks

Course label :	Cement Matrices
Teaching departement :	CMA /
Teaching manager :	Madam CHARLOTTE BECQUART
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C2_4_1 - Verres

Education team

Teachers : Madam CHARLOTTE BECQUART / Madam MURIELLE RIVENET
External contributors (business, research, secondary education): various temporary teachers

Summary

This course puts a special emphasis on the relationships between the different Portland type cements formulation and the roles of the components (major constituent phases and admixtures) on cement properties (setting speed, mechanical properties, durability). The cements chemistry and microstructural evolution throughout the hydration process is also detailed with the purpose to provide the main tools for cements understanding to our students.

Educational goals

This course aims to train students in the formulation and characterisation of the main hydraulic binders used in the cement industry in a context of sustainability. At the end of the course they will be able to understand the chemistry of hydraulic binders and to choose their formulation for a given property or targeted application.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Written exam based on a document review (1h)

Online resources

- Propriￜtￜs des bￜtons, A.M. Neville, Centre de Recherche Interuniversitaire sur le Bￜton, Sherbrooke ￜ Laval, Ed. Eyrolles, 2000 - Cement Chemistry, HFW Taylor, Second Edition, 1997

Pedagogy

Copy of slides presentation

Sequencing / learning methods

Number of hours - Lectures :	10
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Validation of Teaching Unit Materials Science Semester 7. Validation of Teaching Unit Use Properties Semester 8. Validation of Teaching Unit Materials Semester 8.

Maximum number of registrants

Remarks

none

Course label :	High performances materials
Teaching departement :	CMA /
Teaching manager :	Madam CHARLOTTE BECQUART
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C2_1_1 - Alliages métal. & multimatér.

Education team

Teachers : Madam CHARLOTTE BECQUART / Mister JEAN-BERNARD VOGT
External contributors (business, research, secondary education): various temporary teachers

Summary

Major families of high performance metallic alloys: - Stainless steels: austenitic, ferritic, martensitic, duplex for applications in corrosive environments - Nickel alloys: alloys for applications in wet environments and super alloys for applications at high temperatures and under severe mechanical loadings - Zirconium alloys: grades for chemical engineering and grades for nuclear industry - Titanium alloys: biomedical applications and weight saving of structures - Shape memory alloys: functional applications especially in medical field - Aluminium alloys: maritime et aeronautical applications Concept of multi materials: - Multiphased steels and TRIP steels: materials with composite microstructure - Composite materials: the three types of matrix (metal, polymer and ceramic) and the different expected functions of the reinforcements - Welded materials: the different welding processes, their importance in the automotive industry for weight saving - Metallic foam: a solution for structure lightening.

Educational goals

In this module, high performance materials intended for applications at high temperatures and in corrosive environments, with high mechanical strength allowing lightening of structures or exhibiting interesting functional properties are presented. Performances limitations of these materials are discussed according to their microstructures. Some elaboration processes are also discussed. The module comprises two parts. In the first part, the major families of metallic alloys, mainly designed for severe environments, are presented. Each family is described in regards with the metallurgy of the material and with its microstructure which impact is analysed on targeted performances. In a second part, the concept of multimaterial or hybride material is discussed according to the scale of the constituent of the multimaterial. The scale ranges from mesoscopic size (as for multiphased steels) up to macroscopic size (welded materials). Composite materials are largely considered.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Joint exam with ￜ degradation and reliability of materials ￜ module ENSCL_CI2021_C9_C1_1 based on an analysis of s scientific paper.

Online resources

- Understanding Stainless Steel, British Stainless Steel Association ISBN 978-0-9561897-2-1 (2013) - Composite Materials: Design and Applications, Daniel Gay, ISBN 9781466584877 (2014) - Shape Memory Alloy Engineering, L. L. A. Concilio, Butterworth-Heinemann (2014) - Principles of Welding: Processes, Physics, Chemistry, and Metallurgy, R.W. Messler, Wiley, 1999 - Les aciers inoxydables, P. Lacombe, B. Baroux, G. Bￜranger, Les ￜditions de physique (1990) - Procￜdￜs de soudage, K. weman, Dunod (2016) - Les alliages ￜ mￜmoire de forme, C. Lexcellent, Hermes Science Publications, mￜcanique et ingￜnierie des matￜriaux, (2013) - Matￜriaux composites, C. Bathias, Dunod, (2020)

Pedagogy

Oral lectures by using powerpoint. Photocopies of the powerpoint slides.

Sequencing / learning methods

Number of hours - Lectures :	20
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Metallurgy: phase diagrams, martensitic transformation, precipitation, diffusion. Mechanical behaviour and fracture: fatigue, creep, wear, brittle fracture, ductile fracture. Microstructure analysis tools: SEM, EDS, TEM.

Maximum number of registrants

Remarks

This course can be taught in English.

Course label :	Polymers
Teaching departement :	CMA /
Teaching manager :	Madam CHARLOTTE BECQUART
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C2_5_1 - Polymères

Education team

Teachers : Madam CHARLOTTE BECQUART
External contributors (business, research, secondary education): various temporary teachers

Summary

This course is an introduction to polymer physics. It aims at giving the basic notions in order to understand the relations existing between processing - structure - properties in the case of polymers. Briefly the course will focus on the overview and understanding of how to control the (micro) structure of polymers (thanks to the process) in order to control their properties. A particular attention will be paid to the study of the mechanical behavior of polymers.

Educational goals

Ggive an overview and to understand the main polymer processing methods (in both molten state and solid states). Understand the relationships between process - structure and properties. Understand the mechanical behavior of polymers.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Work in group. Making of a poster dealing with a point of the course applied to a real example.

Online resources

Pedagogy

The lecture is supported by numerous videos and animations in order to better understand the different concepts and methods.

Sequencing / learning methods

Number of hours - Lectures :	10
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Knowledge of the macromolecular structure of polymers. Knowledge of the main physical properties of polymers (characteristic temperatures, crystallinity rate, etc.).

Maximum number of registrants

Remarks

Course label :	Powder technology and coating
Teaching departement :	CMA /
Teaching manager :	Madam CHARLOTTE BECQUART
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C2_4_2 - Techno. poudres & procédés

Education team

Teachers : Madam CHARLOTTE BECQUART / Madam NOURIA FATAH
External contributors (business, research, secondary education): various temporary teachers

Summary

The lecture covers the study of the physical properties: theory and the measurement techniques on sampling, porosity, real and apparent densities, particle size analysis (technique of diffraction and diffusion, image processing, sieving), definition of size and average diameters of particles, specific surface area, the shape factor, the phenomenon of agglomeration and flow behaviour in the system and their impact on the conception and the calculation of coating properties.

Educational goals

This course presents the techniques and development of coating technology according to four systems: agitation, dispersion, consolidation and thermal system. The processes like the mixing granulator, spray-drying, prilling, sintering, mï¿œcanosynthï¿œse and mï¿œcanofusion will be studied. This course treats cohesive and non cohesive powders by showing the importance of interaction forces (Van Der Waals, electrostatic and capillary forces) and the influence of the phenomenon of agglomeration on the coating process. The teaching of the powders must be accompanied by selection of problems with numerical calculations is proposed to illustrate the importance of the choice of the coating process and powder technology.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Evaluation : written project 'analysis of industrial problems'.

Online resources

M. RHODES, ￜ PRINCIPLES OF POWDER TECHNOLOGY ￜ, John Wiley and Sons, 1990

Pedagogy

Course with PowerPoint slides, visit of the platform "Process and Powder Technology solutions".

Sequencing / learning methods

Number of hours - Lectures :	20
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Validation of Teaching unit ￜ Gￜnie Chimique ￜ from semester 5, 6, 7 Solid state physics, heat transfer, fluid mechanics, solid state chemistry.

Maximum number of registrants

Remarks

Course label :	Surface treatments
Teaching departement :	CMA /
Teaching manager :	Madam CHARLOTTE BECQUART
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_C2_2 - Traitements de surfaces

Education team

Teachers : Madam CHARLOTTE BECQUART
External contributors (business, research, secondary education): various temporary teachers

Summary

The purpose of this course is introducing the students to the various methods, physical, mechanical, or electrochemical, which can be used to modify a materials' surface. Most of the time, these treatments aim at protecting the material from an external attack, however they can have other purposes : increase wear, erosion or friction resistance, electrical properties modifications, optical properties modifications...In a first part, the course presents what is a surface, which processes can be responsible for its degradation, which methods can be used to improve the surface properties, what are pre-treatments, what are the methods which can be used to characterize the surface. In a second part, some of the most commonly used processes are studied in more details: Physical Vapour Deposition (PVD) and Chemical Vapour Deposition (CVD), thermochemical treatments, galvanization, ion Implantation, mechanical treatments ... This second part is done in the form of oral reports prepared by the students from lecture material given by the instructor.

Educational goals

Learn the principles and technologies of different surface treatment processes and understand a surface protection issue in the industry.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: The students will prepare a one hour lecture on one of the surface treatments by groups of 2 or 3 and with documents provided by the instructor.

Online resources

S. Audisio, M. Cailler, A. Galerie et H. Mazille, Traitements de Surface et Protection contre la Corrosion, Ecole d'ￜtￜ, Aussois 1987, les ￜditions de physique. Manuel des traitements de surface ￜ l'usage des bureaux d'ￜtudes, Club des traitements de surface, CETIM. Groupe de recherches sur l'usure des matￜriaux industriels, Organisation de Coopￜration et de Dￜveloppements Economiques, Glossaire des termes et dￜfinitions dans le domaine du frottement, de l'usure et de la lubrification (tribologie). Principes de base du traitement thermique, Pyc ￜdition, Publications Yves Colombot. Advances of surface treatments, Proceedings of the AST World Conference Advances in Surface Treatments and Surface finishing (Paris 1986), A. Niku-Lari director, volume 5, Pergamon Press Surface Treatments for Improved Performance and Properties, Edited by J.J. Burje and V. Weiss, Plenum Press, New York and London (1982) Friction and Wear, A.D. Sarkar, Academic Press, a Subsidiary of Harcourt Brace Jovanovitch, Publishers, London . New York . Toronto . Sydney . San Fransisco (1980) Tribology: Principles and Design Applications, R. D. Arnell, P.B. Davies, J. Halling and T.L. Whomes, Published by Macmillan Education Ltd

Pedagogy

Oral lectures using powerpoint. Photocopies of the powerpoint slides.

Sequencing / learning methods

Number of hours - Lectures :	20
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Validation of Teaching unit ￜ Science des matￜriaux ￜ from semestre 7. Validation of Teaching unit ￜ Propriￜtￜs d'emplois ￜ from semestre 8. Validation of Teaching unit ￜ Matￜriaux ￜ from semestre 8.

Maximum number of registrants

Remarks

none

Course label :	Innovation and creativity workshop
Teaching departement :	ESO / Business and Society
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_8_4 - Management d'équipe projet

Education team

Teachers : Mister CHRISTOPHE DUJARDIN / Madam ROSE-NOELLE VANNIER / Madam SOPHIE DUQUESNE / Madam VERONIQUE RATAJ / Mister JEAN-BERNARD VOGT / Mister OLIVIER GABUT / Mister PATRICE WOISEL
External contributors (business, research, secondary education): various temporary teachers

Summary

Thanks to my 40 years of experience in management, I was able to write this course, which takes an in-depth look at eleven topics: Recognition - Active listening - Definition of Management and a Manager - Management styles - Levels of autonomy - X and Y theories - Setting objectives - Managing conflicts - Motivation - Delegation - Communication

Educational goals

At the end of this course, students will have the necessary tools to be effective managers; they will know what to do, but also what not to do. - Better understand team management - Foster individual and collective engagement - Enjoy contact, discussions, and negotiations - Add a social aspect to techniques - Give soft skills an increasingly important place

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Theoretical courses with PowerPoint slides given to students (paper or electronic version).

Pedagogy

Develop these eleven topics using concrete examples from real life to illustrate this PowerPoint. Get the students to participate and guide them through a few exercises. Make this course as dynamic as possible.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	6
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Lessons on project management, lessons on problem solving methodologies.

Maximum number of registrants

Remarks

Adapted to the public.

Course label :	Law and management
Teaching departement :	ESO / Business and Society
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_8_1 - Envir. juridique & vie entrep.

Education team

Teachers : Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	12
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Production management
Teaching departement :	CMA /
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_8_3 - Gestion de production

Education team

Teachers : Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	14
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Strategy and marketing
Teaching departement :	ESO / Business and Society
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_8_2 - Marketing stratégiq. & opérat.

Education team

Teachers : Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	18
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Witten communication (2nd year internship report)
Teaching departement :	CMA /
Teaching manager :	Madam CHARLOTTE BECQUART / Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_8_5 - Communication écrite

Education team

Teachers : Madam CHARLOTTE BECQUART / Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Students must write their internship report.

Educational goals

After writing their internship report, students must have consolidated the concepts they acquired in semester 7 on writing the internship report.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

The "Consignes rapports et soutenances" (Report and oral defence instructions) and "La rï¿œdaction d'un rapport : conseils" (Writing a report: advice) documents can found on the ENT digital workspace. The APEC (the French association for executive employment) documents entitled "Exploitation du stage" (Capitalising on an internship) and "Analyse et synthï¿œse d'une rï¿œalisation professionnelle" (Analysis and summary of a professional experience) are made available on Moodle at the end of the last 3P session of semester 6.

Pedagogy

Students must write an internship report following the instructions contained in the document entitled "Consignes rapports et soutenances" (Report and oral defence instructions) and using the document "Guide pour la rï¿œdaction du rapport de stage" (Guide for writing the internship report). The annotated report and a comment sheet are returned to students after having been corrected by an academic referee.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Students must have completed an internship. Students must have attended the Professional and Personal Project (3P) sessions in semesters 5, S and 7.

Maximum number of registrants

Remarks

Course label :	Business simulation
Teaching departement :	ESO / Business and Society
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_7_1_1 - Simulation projet d'entreprise

Education team

Teachers : Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	4
Number of hours - Tutorial :	12
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Cross interdisciplinary project in economy
Teaching departement :	ESO / Business and Society
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_7_2_1 - Projet transversal économique

Education team

Teachers : Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	2
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Economical analysis of an entreprise
Teaching departement :	ESO / Business and Society
Teaching manager :	Mister CHRISTOPHE DUJARDIN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_7_3_1 - Etude économ. de l'entreprise

Education team

Teachers : Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	2
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	3rd language (optional)
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Mister MICHEL FIAN
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_5_7 - 3ème langue (optionnelle)

Education team

Teachers : Mister MICHEL FIAN
External contributors (business, research, secondary education): various temporary teachers

Summary

Japanese: Students learn kanji and more advanced grammar, such as forms of comparison, superlatives of superiority, inferiority and equality, conditionals, forms of decision, making attempts, obligation, and giving advice. There are also exercises and a translation of a children's story.

Educational goals

Students will be able to acquire technical vocabulary and master Japanese grammar, allowing them to express themselves on a daily basis and on various subjects. Students will learn the tools and tips to effectively translate a text, and become aware of the depth and complexity of the Japanese language.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: No assessment. Bonus point based on presence and participation in class.

Online resources

Pedagogy

Documents handed out in class. Grammatical explanations given step by step with a logical link between lessons.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	30
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Japanese level 2 (course at ENSCL)

Maximum number of registrants

Remarks

Course label :	English
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam ANNE GUEGAND
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_5_1 - Anglais

Education team

Teachers : Madam ANNE GUEGAND / Mister ABDELAMAR BENAISSA
External contributors (business, research, secondary education): various temporary teachers

Summary

Foster the international exposure of educated engineers by facilitating their integration at a foreign university or company (internships), thereby giving them an additional asset when they start their job search. To give all engineering students the means to be autonomous with regards to understanding, writing and speaking English. The linguistic aspects of the course are closely linked to the culture and civilisation of the countries considered. Students can therefore integrate into a professional environment abroad and communicate both in writing and orally in everyday and professional situations.

Educational goals

Semester 9 programme: English for professional communication: Students present their company and research, a project, negotiations in an international context, etc. Students develop business, technical and legal vocabulary and intercultural openness.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Assessment: A written exam (two hours) and a professional oral presentation.

Online resources

Pedagogy

Thematic work on the programme and role play. Various media (press, video documents, professional documents, etc.), role play and case studies. Students work in groups organised by level.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	30
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Students must have validated semester 8 of the of the single or double-degree engineering programme. Required level: Minimum of B2 (CEFRL) The minimum level of English required by the Commission des Titres d'Ingï¿œnieur (the French commission of engineering degrees) after graduating from an engineering programme is level B2, as defined by the "Common European Framework of Reference for Languages" of the Council of Europe. In particular, this level must be assessed and certified by a recognised language exam or test, for example a TOEIC score of 785, a TOEFL score of 550 (213 for the computer-based test), grade C on the FCE, etc. At the end of the course, third-year engineering students should have acquired most of the C1-level language skills.

Maximum number of registrants

Remarks

Course label :	French as a foreign language
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam VERONIQUE DZIWNIEL
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_5_6 - Français langue étrangère

Education team

Teachers : Madam VERONIQUE DZIWNIEL
External contributors (business, research, secondary education): various temporary teachers

Summary

Acquire a good level of French for self-expression and to thrive in class and in daily life. Students in the double-degree programme must validate level B2 in semester 9.

Educational goals

French as a Foreign Language (FFL), consolidating and perfecting the four skills.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Continuous assessment and a final exam.

Online resources

Various depending on the teacher and the group's level.

Pedagogy

Various depending on the teacher and the group's level. Work on all support materials and practice on DELF-DALF preparation documents.

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	25
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Level B1 required to enrol, but some students actually only have a level of A2 (determined after an internal placement test).

Maximum number of registrants

Remarks

Course label :	German
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam ANNE GUEGAND
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_5_2 - Allemand

Education team

Teachers : Madam ANNE GUEGAND / Madam BEATE IZARD
External contributors (business, research, secondary education): various temporary teachers

Summary

Upon arrival at the school, engineering students take a test to determine their level, which is used to divide them into two groups, including a refresher group. From semester 7 onwards, they are generally put into a single group at a high but very disparate level, which requires a teaching method that can constantly adapt. Regardless the students' level, the main aim of the courses is to make students operational: develop self-confidence, favour a pragmatic approach, and communicate easily. In addition to continuing German in a group at a high level, the chemical engineering programme offers students not studying German the chance to start German in semester 5 as a "new second language" in order to allow them to seize many opportunities (internships/exchanges/employment). After two years of studies, a study abroad trip to Leverkusen and Cologne is organised at the end of semester 6, and, for some, an internship is carried out in a German-speaking country. Students are strongly encouraged and prepared to validate their level with an official certification (A2).

Educational goals

For advanced levels (B1/B2/C1): - Become (more) operational in the five skills of the Common European Framework of Reference for Languages (oral and written comprehension, oral and written expression, oral interaction), but especially in oral interaction and expression. - Develop the ability to integrate into a professional environment, with the thematic focus of semester 9 placed on subjects related to the chemistry electives chosen by students (materials/formulation/environmental chemistry). - Intercultural openness. - Acquire more scientific and technical German vocabulary in the field of chemistry. - Continuation of personalised assistance in finding an internship via individual meetings. For level A2: - Consolidate level A2/2 in the five skills of the Common European Framework of Reference, favouring oral interaction and expression. - Prepare for the various official certification tests (level A2) offered at the end of semester 9. - Acquire more practical knowledge about daily and professional life in German-speaking countries. - The vocabulary used in chemistry laboratories is briefly covered.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: A written exam (written and oral comprehension, written expression), an oral exam (continuous expression and interaction) and/or (depending on the health situation) written and oral continuous assessments.

Online resources

Brief instructions: - For news: www.dw.de - Online dictionary: http://de.pons.com - For beginners: https://learngerman.dw.com/en/beginners/ ("Nicos Weg" A2)

Pedagogy

- For advanced levels (B1/B2/C1): differentiated and cooperative teaching method A variety of group work (in pairs, groups, coaching, role play, etc.) Varied and authentic media (audio, videos, films, press, professional documents) - For beginners: the same group work (see above) The use of the "Studio 21" method (Cornelsen Verlag), the "Nicos Weg" series and authentic/professional documents

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	30
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

- Minimum level of B1 (European Reference Framework) for the group(s) at a higher level. - Students who started German in semester 5 should now have reached level A2/2.

Maximum number of registrants

Remarks

Course label :	Spanish
Teaching departement :	LVI / Foreign Languages
Teaching manager :	Madam ANNE GUEGAND
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_5_3 - Espagnol

Education team

Teachers : Madam ANNE GUEGAND / Madam HAKIMA LARABI
External contributors (business, research, secondary education): various temporary teachers

Summary

Consolidate level B2 (independent user) and reach level C1 (advanced and autonomous user) for the skills defined by the CEFRL (comprehension, speaking and writing). Possibility of applying for the Spanish DELE B2 or C1 certificate issued by the Cervantes Institute for those who did not do so in semester 7. In addition, the central theme is focused on the professional world (health and safety, international work and expatriation, interculturality, job interviews, continuous speaking, etc.). Group work and role play allow students to be at the centre of the learning experience and to prepare themselves for the professional world, with a view to their imminent integration (professional internship in semester 10 and entry into the labour market once the degree has been validated).

Educational goals

Oral comprehension: Understand a long speech even if it is not clearly structured and the transitions are only implicit. Understand TV shows and movies without too much effort. Written comprehension: Understand long and complex factual texts and assess their stylistic differences. Understand specialised articles and lengthy technical instructions even when they are not related to the student's field. Oral expression: Interative expression: Speak spontaneously and fluently without seemingly having to search for words. Use language flexibly and effectively and for social and professional relationships. Express ideas and opinions and relate your thoughts to those of the people you are talking to. Continuous expression: Present clear and detailed descriptions of complex topics, incorporating related topics, developing certain points and completing your thoughts appropriately. Written expression: Express yourself in a clear and well-structured text and develop your point of view. Write on complex subjects in a letter, essay or report, highlighting points considered to be important. Adopt a style suited to the reader or recipient.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Assessment methods: - An exam at the end of the semester: assessment of oral comprehension (video or audio), comprehension of texts, and written expression. - Continuous oral expression exam: Oral presentation on a scientific subject related to in-depth studies followed by an interview. No continuous assessment in semester 9.

Online resources

Resources: Civilisation, politics and international institutions: https://www.un.org/es/ (the UN's official website). High Commissioner for the defence of citizens' rights: https://www.defensordelpueblo.es/ UNESCO: https://es.unesco.org/ The EU's official website: https://europa.eu/european-union/index_es Cervantes Institute: https://www.cervantes.es/default.htm Free online dictionaries: Diccionario de la lengua espaï¿œola RAE: https://www.rae.es/ WordReference.com: https://www.wordreference.com/ Diccionario panhispï¿œnico de dudas: https://www.rae.es/dpd/ 13 Diccionarios de la Real Academia Espaï¿œola: https://www.rae.es/recursos/diccionarios Diccionario de colocaciones del espaï¿œol: http://www.dicesp.com/paginas Diccionario de regionalismos: http://www.jergasdehablahispana.org/ Diccionario de americanismo: http://lema.rae.es/damer/ Grammar and conjugation: Lingolia: https://espanol.lingolia.com/es/gramatica Todo claro: https://www.todo-claro.com/c_index.php EFE practical Spanish exercises: https://www.practicaespanol.com/ejercicios/ Marco ELE papeles gramï¿œtica del espaï¿œol como lengua extranjera: https://marcoele.com/gramatica-a/ Press. El paï¿œs: https://elpais.com/ El mundo: https://www.elmundo.es/ Huffpost: https://www.huffingtonpost.es/ ABC: https://www.abc.es/?ref=http:%2F%2Fwww-langues.univ-lille1.fr%2Fco%2F06_presse.html Clarï¿œn: https://www.clarin.com/ EFE: https://www.efe.com/efe/espana/1 Medios latinos: https://latindex.com/prensa/ Oral comprehension EFE practica espaï¿œol comprsiï¿œn auditiva: https://www.practicaespanol.com/tag/comprension-auditiva/ Profe de ELE.es: https://www.profedeele.es/categoria/destrezas/comprension-auditiva/ Marco ELE: https://marcoele.com/contenidos/ RTVE: https://www.rtve.es/directo/la-1/ https://www.rtve.es/alacarta/ https://www.antena3.com/ Television and video. RTVE: https://www.rtve.es/television/ Telemadrid: http://www.telemadrid.es/ https://www.lasexta.com/ https://www.antena3.com/ Euronews: https://es.euronews.com/ Globovisiï¿œn: https://globovision.com/ Todo noticias Argentina: https://tn.com.ar/ Televisiï¿œn chilena: https://www.tvn.cl/

Pedagogy

Linguistic, scientific and cultural aspects: - Oral comprehension: multimedia language lab or video sequence. - Oral expression: continuous (presentations, professional projects, reports, etc.) and interactive expression (simulations, role play). - Written comprehension: scientific and/or cultural texts. - Written grammatical skills. - Written expression (writing a formal or informal letter, writing a dialogue, discussion topics, etc.). Professional aspects: - Gaining knowledge: teamwork, human resources management (organising a meeting, etc.), organising a safety/environment awareness raising campaign, etc.) - Oral expression: continuous (presentations: learning to take stock, professional projects, reports, etc.) or interactive expression (simulations, role play, making videos, etc.) - Communication technique: (managing a team, analysing risky situations, etc.) - The job interview (chemistry professions, etc.)

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	30
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Students must have validated semester 8.

Maximum number of registrants

Remarks

Remarks: There is the possibility of welcoming volunteer international students in the Spanish group in semester 9, with a view to promoting intercultural exchanges and cooperation.

Course label :	Cross interdisciplinary project in security
Teaching departement :	CMA /
Teaching manager :	Mister SERGE BOURBIGOT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_6_2 - Projet transversal sécurité

Education team

Teachers : Mister SERGE BOURBIGOT
External contributors (business, research, secondary education): various temporary teachers

Summary

A two-person group performs a project on security in the industry

Educational goals

To learn how to manage a project based on specification

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: - Report - Defense

Online resources

- Library of Centrale Lille and ULille - Company

Pedagogy

Project made in autonomy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	5
Number of hours - Projects :	0

Prerequisites

Chemistry and chemical engineering at the undergraduate level

Maximum number of registrants

Remarks

-

Course label :	Industrial security
Teaching departement :	CMA /
Teaching manager :	Mister SERGE BOURBIGOT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_6_1_2 - Sécurité industrielle

Education team

Teachers : Mister SERGE BOURBIGOT / Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

The course deals with the safety in chemical industry. It covers: Survey of safety in the industry Hazard process Proportioning of safety valve Atmospheric dispersion Combustions ￜ explosions Dust explosions Safety Controls for Chemical Reaction Hazards Domino effect

Educational goals

To learn safety applied to the industry and to learn how to quantify hazards

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: Project

Online resources

Sￜcuritￜ des procￜdￜs chimiques : Connaissances de base et mￜthode d'analyse de risques by A. Laurent

Pedagogy

Conventional course Media: Powerpoint

Sequencing / learning methods

Number of hours - Lectures :	20
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Chemistry and chemical engineering at the undergraduate level

Maximum number of registrants

Remarks

-

Course label :	Security in enterprise
Teaching departement :	CMA /
Teaching manager :	Mister SERGE BOURBIGOT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_6_5 - Sécurité en entreprise

Education team

Teachers : Mister SERGE BOURBIGOT
External contributors (business, research, secondary education): various temporary teachers

Summary

Educational goals

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Pedagogy

Sequencing / learning methods

Number of hours - Lectures :	0
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Maximum number of registrants

Remarks

Course label :	Sustainable development
Teaching departement :	CMA /
Teaching manager :	Mister SERGE BOURBIGOT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_6_1_1 - Développement durable

Education team

Teachers : Mister SERGE BOURBIGOT / Madam GAELLE FONTAINE / Mister CHRISTOPHE DUJARDIN
External contributors (business, research, secondary education): various temporary teachers

Summary

This module helps students to perfect their knowledge of sustainable development and teaches them how to collect data and draft greenhouse gas emissions reports.

Educational goals

The acquisition of knowledge in the field of sustainable development and the drafting of greenhouse gas emissions reports.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments: The carbon footprint method will be assessed through the completion of projects. The in-person assessments are carried out in part during the Sustainable Development (SD) Week using the Sulitest score.

Online resources

Databases of scientific articles (Scopus, etc), newspaper articles, dedicated websites. Sulitest

Pedagogy

The first part will be devoted to a course on raising awareness about the greenhouse effect and defining the scope of GHG reports. The second part will be devoted to drafting a GHG emissions report. The course is based on a series of presentations (around eight) on a social theme relating to the environment, the economy or social issues and activities within the school. These presentations are given during ENSCL's "Sustainable Development Week" by specialists in the theme being discussed. Regarding the Sulitest, knowledge in terms of sustainable development is supplemented by Sulitest training sessions.

Sequencing / learning methods

Number of hours - Lectures :	3
Number of hours - Tutorial :	4
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	2
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Students read articles dealing with the theme of the SD Week. Knowledge acquired in the first and second year of the engineering programme during the different SD courses.

Maximum number of registrants

Remarks

-

Course label :	Toxicology
Teaching departement :	CMA /
Teaching manager :	Mister SERGE BOURBIGOT
Education language :
Potential ects :	0
Results grid :
Code and label (hp) :	ENSCL_CI_M9_6_3 - Toxicologie

Education team

Teachers : Mister SERGE BOURBIGOT
External contributors (business, research, secondary education): various temporary teachers

Summary

The Training Course (TC) 9.6 - Quality, Hygiene and Safety seeks to make student engineers aware of compliance with standards of quality, hygiene and safety within a production unit, mainly but not exclusively, within the chemical, petroleum, steel, or food industries. Knowledge: - Knowledge of the toxicity of emerging industrial pollutants (e.g., typology and sources, etiology of exposures, dose-response relationship, toxicokinetics, toxicodynamics). - Methods of assessment and management of health risks in the workplace - Hazard prioritization - case of multiple exposures - Risk characterization - Biological monitoring in the workplace - Occupational risk management method Skills: - To know how to analyze the behavior of toxins in the workplace according to their physico-chemical properties and sources / emission conditions - To know how to apply health risk assessment and management methods to occupational situations - To be able to prioritize hazards in the workplace - To be able to determine the critical effect of a toxic and to apply its Toxicological Reference Value (TRV) in the health risk assessment process - To be able to assess and manage regulated and emerging toxic substances - To be able to establish and implement health risk management measures

Educational goals

Considering the knowledge and skills acquired in the engineering cycle - 2nd year, to know and to know how to apply the health risk assessment process in an occupational environment.

Sustainable development goals

Knowledge control procedures

Continuous Assessment
Comments:

Online resources

Casarett and Doull's Toxicology : the basic science of poisons Klaassen, Curtis D8th ed. New York : McGraw-Hill Education, 2013. Toxicologie : fondamentaux et fiches pratiques Xavier Coumoul DUNOD ISBN 13 : 9782100761739 Toxicologie industrielle et intoxications professionnelles Robert Lawerys et Dominique Lison MASSON ISBN : 9782294014185

Pedagogy

Module plan: - Examples of toxic substances emerging in the workplace - toxicokinetics and toxicodynamics - Methods of assessment and management of health risks in the workplace - Case of multiple exposures at low doses - integration into the health risk assessment process - Strategies for managing health risks in the workplace - Case studies Educational tools: - Course materials, publications and reference works, websites - Theoretical courses and applications to exposure situations in occupational settings (case study) - French language

Sequencing / learning methods

Number of hours - Lectures :	10
Number of hours - Tutorial :	0
Number of hours - Practical work :	0
Number of hours - Seminar :	0
Number of hours - Half-group seminar :	0
Number of student hours in TEA (Autonomous learning) :	0
Number of student hours in TNE (Non-supervised activities) :	0
Number of hours in CB (Fixed exams) :	0
Number of student hours in PER (Personal work) :	0
Number of hours - Projects :	0

Prerequisites

Knowledge and skills acquired in the engineering cycle - 2nd year (CF. Syllabus UTC 7.6 Toxicology)

Maximum number of registrants

Remarks

N/A