Kursplan – Doktorandkurs - IEI

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24 Οκτ 2013 (πριν από 3 χρόνια και 11 μήνες)

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LINKÖPINGS UNIVERSITET



2013
-
05
-
23

Institutionen för ekonomisk och industriell utveckling


Kursplan


Doktorandkurs


Namn

Fluid Mechanics for Medical Engineering PhD students

Kursmål

After the course shall the student have:



Have a good knowledge of the ba
sic fluid

mechanics

equations

and their derivation

as
well as more engineering applicable flow equations.



Understanding the origin and limitations of ideal flow profiles such as Poiseuille and
Couette profiles



The ability to use the Reynolds number to clas
sify and analyze flow situations



Basic knowledge of turbulent flow behavior



The ability to use the finite difference technique to an ideal flow situation



Understanding fluid properties and especially for biological substances such as blood

Innehåll



Fluid
properties



Governing equations



Bernoullis equation



Flow profiles, Poiseuille, Couette, …



Boundary layer and pressure measurement



Reynolds number and similarity laws



Turbulence



Finite differences



CFD



Pipe flow and pump choice using energy equation



Flow prof
iles (between flat plates) algebraic



Rhelogy of blood (properties and models)



Couette flow using numeric (finite differences)



Stenotic flow visualization of CFD data



Pipe flow and pump choice using energy equation



Velocity to pressure conversion in a steno
tic human aorta

Förkunskaper

Master of Science Degree
, only a good mathematical knowledge and basic programming
skills is needed (Matlab will be used during the course).

Målgrupp

Medical Engineering
PhD students

Undervisning

9
Seminars with different fo
cus according to the list below:



Fluid properties



Governing equations



Bernoullis equation



Flow profiles, Poiseuille, Couette, …



Boundary layer and pressure measurement



Reynolds number and similarity laws



Turbulence



Finite differences



CFD

7 Assignments rega
rding the following:



Pipe flow and pump choice using energy equation



Flow profiles (between flat plates) algebraic



Rhelogy of blood (properties and models)



Couette flow using numeric (finite differences)



Stenotic flow visualization of CFD data



Pipe flow an
d pump choice using energy equation



Velocity to pressure conversion in a stenotic human aorta

Litteratur

Parts of a number of Books and som dissertations according to the list below:



Douglas
et. al., Fluid Mechanics



Anderson
, Computational Fluid Dynamics



Cengel & Turner, Fundamentals of Thermal
-
Fluid Sciences



Osbourne Reynolds

article



Tannehill et. al., Computational Fluid Mechanics and Heat Transfer



Renner Dissertation



Frank Gijsen Dissertation



Ebbers Dissertation


Examination

9 seminars

7 assignments s
hort technicla reposts and orally discussed

Examiner: Johan Renner

Poäng

6hp

Övrigt