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Cursus: 202000737
202000737
Transport Phenomena
Cursus informatie
Cursus202000737
Studiepunten (ECTS)7,5
CursustypeOnderwijseenheid
VoertaalEngels
Contactpersoonprof.dr.ir. D.W.F. Brilman
E-maild.w.f.brilman@utwente.nl
Docenten
Contactpersoon van de cursus
prof.dr.ir. D.W.F. Brilman
Docent
prof.dr.ir. D.W.F. Brilman
Docent
dr.ir. M.A. van der Hoef
Collegejaar2021
Aanvangsblok
1B
AanmeldingsprocedureZelf aanmelden via OSIRIS Student
Inschrijven via OSIRISJa
Cursusdoelen
  • Being able to formulate and solve a macroscopic balance for mass, momentum and/or energy in case of flow through a control volume
  • Being able to determine the velocity and shear stress profile for fluid flow through simple geometries (2D, 3D tube flow), starting from the micro-balance for momentum, for different boundary conditions (gas-solid, liquid-solid, liquid-gas). Being able to calculate the flow rate and force exerted to the wall by the fluid.  
  • Understand terms as Reynolds number, laminar flow and turbulent flow. Being able to use these terms in the right context.
  • Able to apply Bernoulli‚Äôs Law for flow at high and at low Reynolds numbers.
  • Able to determine the flow resistance for piping systems and for flow past objects of simple geometry (spheres, cylinders)
  • Able to formulate and solve the equation of motion for particles moving in a fluid under influence of gravity and/or uplift
  • Able to recognize the prevailing transport mechanisms. Able to describe quantitatively heat transport by conduction, convection and radiation, separately and combined. Formulate and solve integral and differential thermal energy balances for steady state and instationary operation of open and closed systems.
  • Formulate and solve differential energy balances and component mole balances to find a temperature distribution or concentration profile.
  • In this, the necessary and appropriate various (integral or differential) energy and mole balances and transport (Nusselt/Sherwood) correlations must be applied.
  • Knowledge of mass transfer models and be able to describe quantitatively mass transport in a single phase by diffusion and convection, as well as mass transfer between phases.  Able to solve problems of coupled heat and mass transport. Apply appropriate Nu/Sh correlations.
  • Analyse and solve problems on thermal energy and molar transport in exchange equipment. Formulate and solve integral and differential, stationary (component) mass- and energy balances
Inhoud

Voorkennis
Open for students in an Engineering BSc programme.
Participating study
Bachelor Scheikundige Technologie
Module
Module 6
Verplicht materiaal
Reader
Transport Phenomena (+ Exercise bundle)
Aanbevolen materiaal
-
Werkvormen
Hoorcollege

Werkcollege

Toetsen
Transport Phenomena

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