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Tronc Commun - MOD-M-ADPH-PhPcsDe-SCPrc : Liquid-solid processes

Descriptif

Different Liquid-solid processes used in pharmaceutical industries are presented: crystallization, solvent extraction, membrane separation processes.

Objectifs pédagogiques

The objectives are given for each parts

Crystallization
At the end of this part, the students will be able to:
- understand the phenomena involved in a crystallization
- know how to write mass balance (solute/solid) in a crystallization operation and to calculate or temperature or anti-solvant addition profile

Solvent extraction
At the end of this module, the student will understood and will be able to explain the following main concepts:
- 3 components phase equilibrium diagrams
- General concept for mass transfer unit operations (Ideal stages, operating lines...). Kinetic limitations and theirs effects on separation
- Different ways to perform separation processes (single contact, cross-current and counter-current contactors)
The student will be able to:
- use the three components equilibrium diagrams
- write the mass balances
- choose the contact mode
- design a multistage separation device (liquid-liquid and solid-liquid extraction)
- know how to propose a contactor technology.

 

Membrane separation processes
At the end of this part, the students will be able:
-To expose students to fundamental and technological aspects of membrane separation processes, with particular emphasis on applications that may be useful in processing and in utilities management in the food and pharmaceutical industries.
-To introduce the main scientific aspects involving current commercial separation processes
-To draw attention to the correlation membrane structure and transport properties
-To introduce basic aspects of membrane svstems design and operation, including membrane module configurations and feed pre-treatment
-To motivate students to propose their own solution to particular separation problems.

20 heures en présentiel

Diplôme(s) concerné(s)

UE de rattachement

Pour les élèves du diplômeAdvanced Pharmaceutical Engineering

-Thermodynamics / Phase equilibrium
-Mass and energy balances
-Hydraulics and dispersed systems
-Basical concepts of Chemistry and Physics
-Knowledge of heat and mass transfer phenomena.
-Numerical analysis (less important)

Format des notes

Numérique sur 20

Littérale/grade européen

Pour les élèves du diplômeAdvanced Pharmaceutical Engineering

Vos modalités d'acquisition :

Crystallization
Written test

Solvent extraction

How is assessed that the objectives have been reached?
- by verifying during tutorials the personal work
- by a student personal assessment based on on-line exercises
- by a short written examination at the end of the term
How does your assessment system help the student to reach the objectives?
This evaluation system allows every student to review continuously the state of its knowledge and its appropriation of the subject.

Membrane separation processes
a) A quizz with a list of 11 exercises including an example of a request proposal for an industrial problem is handed out to the students ; they have to select 8 questions and hand back solutions the next day for class discussion.
b) A list of 5 research scientific/technological papers, ineluded review papers, is proposed and preliminarv discussed with the students. Each one is to select paper, to read critically and to orally present and discuss in the final class
Each of these activities is graded.

Le rattrapage est autorisé (Max entre les deux notes écrêté à une note seuil)

    Le coefficient de l'enseignement est : 4

    La note obtenue rentre dans le calcul de votre GPA.

    Programme détaillé

    Content

    Crystallization (15h)

    - Mode of crystallization
    - Mechanisms of crystallization
          .Nucleation
          . Crystal growth
    - Operating mode of crystallizer
          . Batch crystallizer : seeding, temperature profile
          . Continuous crystallizer : application of population balance
    - Suspension Mixing
    Assessment methods
    Written test


    Solvent extraction (12 h)

    - Introduction to solvent extraction
    - 3 components isotherms and phase diagrams - liquid-liquid and solid-liquid
    - Criteria for the choice of the solvent
    - General concepts for mass transfer unit operations (presentation, ideal stages, real stage, operating lines, equilibrium stage, kinetic concepts)
    - Unit operations of mass transfer: single contact, cross-current and counter-current
    - Technology principles of different separators
    - Design tools of separators. Application to extraction


    Membrane separation processes (15h)

    - Separation criteria for mixtures.
    - Basic concepts: synthetic membranes, driving forces, morphology models.
    - Transport mechanisms in porous and dense membranes.
    - Cooncentration polarization. An overview of established membrane processes for liquid and gas phases separation.
    - Membrane materials.
    .Synthetic membranes fabrication and characterization.
    .Permeation module types, system arrangements and operation and modes.
    -Fundamentals and applications of microfiltration, ultrafiltration and nanofiltration. Reverse osmosis. Gas permeation. Pervaporation. Dialysis and Electrodialysis. Membranes as contactors. Membrane separations in pharmaceutical and bioprocesses.

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