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Applied Kinetics [ LMAPR1400 ]


5.0 crédits ECTS  30.0 h + 30.0 h   2q 

Teacher(s) De Wilde Juray ; Bailly Christian ;
Language French
Place
of the course
Louvain-la-Neuve
Main themes The course is divided in two parts. The first part (2.5 ECTS) is devoted to the basic elements of chemical and physical kinetics, their interdependence as well as their relationship with thermodynamics. The second part (2.5 ECTS) derives the rate equations for complex reactions (in parallel, in series, reversible and heterogeneous) and explains how they are incorporated in the ideal reactors models.
Aims The main objective of the course is to familiarize the students with the kinetics of physical and chemical transformations. Knowing the rates of these transformations is of prime importance for modelling and design of chemical processes. The identification of rate laws in typical cases is described and the meaning of the different parameters on a molecular level is pointed out.
Content Content : Part 1 : - Basics of chemical kinetics : formal kinetics ; experimental methods for kinetic analysis ; physical and thermodynamical basis (1 ECTS) - Important examples of homogeneous and heterogeneous reactions : chain radical reactions ; enzymatic catalysis ; surface catalysis (0,5 ECTS) - Kinetics of physical phenomena : phase transformation by nucleation and growth (Avrami) ; diffusion of heat and matter (Fick's et Fourier's laws) (1 ECTS) Part 2 : - Formal kinetics of complex reactions: in parallel, in series, and reversible reactions. Derivation of the rate equations and experimental methods of acquisition. - Kinetics of heterogeneous reactions and properties of industrial catalysts. Derivation of the different rates following the adsorption models. - The use of rate equations in the basic ideal reactors equations (batch, plug flow and CSTR) Methods : Ex-cathedra courses and exercises.
Other information Not applicable
Cycle et année
d'étude
> Bachelor in Engineering
Faculty or entity
in charge
> FYKI


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