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PA - C2B - CHI564 : Chemical Engineering

Domaine > Chimie.

Descriptif

Chemical compounds or molecules are first of all matter, that was born from the Big bang energy, with the help of the Higgs boson, and successive huge compressions and temperature increases, which led to fill the Mendeleiev stall over billion years. Life kept up the job, thanks to DNA molecules made of the elemental bricks H O C N ; despite of several tremendous extinctions, Life managed to store carbon dioxide, to fuel with oxygen, to come on terra firma, and invent polymers long time before us.

Nowadays, based on the extensive use of fossil - coal, oil, gas, then nuclear fuels, with an increasing contribution of renewable energy (RE) - hydroelectricity, PV and wind farms, the process industry is able to provide us not only chemicals, such as drugs, fertilizers and dyes, polymers, energy vectors, but also drinkable water, food, cosmetics, glass, batteries... and smartphones.

The career of a new inorganic or organic product - a drug for instance - most of time begins at lab-scale : this is the "synthesis" step. Once its end-of-use property assessed, Process Engineering (PE) appears on stage to build up and manage plants which will yield it from raw materials and energy and bring it to market, with a minimum production cost and a reduced environmental footprint. More, R&I in Process Engineering is requested to develop as fast as possible techniques for the respect of the environment, circular economy, and RE production, use and storage : VOC capture, polymer recycling, methanisation,  hydrogen fuelled cars for instance.  

The purpose of the course is to introduce students to methods of design shared by the various "unit" operations combined in a plant - reactions, mass and heat transfer. These methods mainly consist in mass and energy balances and flow modelling.  Students will be trained all along the course thanks to corrected exercises, and finally deal with a case study concerning a field of application of PE - drug and food industry, carbon capture, preparation of nuclear fuel water treatment, etc...  

Expected knowledge : be able to make the inventory of the data required for the design of a unit operation, set up its equation of performance, and calculate its efficiency.


Course
Language : English or French, on demand

Credits ECTS: 4

Format des notes

Numérique sur 20

Littérale/grade réduit

Pour les étudiants du diplôme M1 - Chemistry and Interfaces

Le rattrapage est autorisé (Note de rattrapage conservée)
    L'UE est acquise si note finale transposée >= C
    • Crédits ECTS acquis : 5 ECTS

    Pour les étudiants du diplôme Titre d’Ingénieur diplômé de l’École polytechnique

    Le rattrapage est autorisé (Note de rattrapage conservée)
      L'UE est acquise si note finale transposée >= C
      • Crédits ECTS acquis : 5 ECTS

      La note obtenue rentre dans le calcul de votre GPA.

      Pour les étudiants du diplôme Echanges PEI

      Le rattrapage est autorisé (Note de rattrapage conservée)
        L'UE est acquise si note finale transposée >= C
        • Crédits ECTS acquis : 5 ECTS
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