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Samenvatting - Fluid Machines (E048100B)

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This is a summary of the most important things from the course 'Fluid machines'. Some chapters are not included because they are more descriptive.

Institution
Course

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Chapter 1 :
Working Principles
Turbomachine exchanger energy between continuous
flow of a
fluid and


cont machine
a .




rotating component
* Puer machines
receiving
↳ in
comp .




Fluid) water ,
oil ...
)
Pump (chopter 87

↳ Compressible high pressure
increase -
Compressor
"
Low
presur
increase -
fan 1 Chopter 3)
* Pover
delivering machines


woter-hydraulis /chapter 9) turbine

↳ Steam -
>Steam Limbine (Chapter 6
↳ Air ) Wind turbine (Chapter 10)
Jotmag .





gas
. -




# Basis laws
for
stationary dut parts
o

woll velocity
=




↳ channel between
stationary blades
f
conservation
*
of mas




?
Steady flow -mass in= mess out


& As Va dt =

PrAr vidt


or mout Min (t
pAw
= =
=




* Conservation
of momentum
Newton 2 with C
law s
change in momentum
per
time unt mess
equals sum
of applied face

change momentum
: As d -Pittdt
-


政 Aα - .W ,Aii ☆ - ƩF

= P




=> in/v-i) =
z

for elementary partdx , minentam lau
projected on x dis dz
_ u




(p Edp(dt p(A + dA)dxg1z1x
-


in 10 do v) (p dp)(A dt)
pt +
+ + +
+
-
-
-
=




-neglect higher order ? = d)

, .

unt
>
-




JeAde =

-Adp-pAdudevt + dp + du = 0 / Bernali
equation (
~
if j =
+
integrate dong streamline : + u = c


Now take
friction and
activene into account ?
rCisumference
-




Sheor
[0dx
~
+ face rota in
fluid

nooker,
te





_




PAv
_

dW
dqiu
+
= -




Then Beinarulli : dvC +
jdp + dV +
dqu =
dw


# conservation of energy
T law of thermodynamics
increase in C mass heat and work supplied
- E
of syst .
W .

equale sum
of
* Q =

dg in (Heat per tims unit)

* w =
dFv = dwi/wok per time unit

* E =
e + Ev2 (intend + KE = Fund mech ES
.
.




energylaur : in (E dE + E)
pAv -(p dp)(A + + dA)(v + dv)
yAdxgt Äv w+ q
-
=
+
-






No work doe
by pressure force and
frictio firs on duct worl ?
=> m
in &E =
=M - inRid -
indu + w+ Q

‰ dSe )
2 +

崎 + v = dw +
p
e M
h
+
=


dih + e + Ul =
dwd
_


Kim E . .



Gov.
pot
E .




↑ Zie ook Rest .



8






, laws for Rotating
* Basic duct
part
* Work and with c
Energy equations in a
rotating from angular vebrity
in Relative vel .
-
frame rotating of Cont
angular
Some basic laws introduce
But
Centrifugal Coriolis
force
~
+



2 h n
"
-D

w
= t 5 rm 챗



" 맑
) put frame
p
O "
Relation between absolute dr and
displacement
Relative Gr


dn = ☆ r 011+ S
→= 5 旭 +
-
differentition is
applied to find relation between als aus andrel

+δ( ++∞ )
d
= 8
@ = 旭 ++ =②+ 1 ※ ++ω * ]



e
+

= ≥ ( ㎡ r τ * 1+ * r +




antn 2旭 + 回
… ㅠ

arch
Co
-


cf 패
-




Ladditiond
-

man EF marl=
=
EFt MCI
+
term in Relotive frome 8
·

Centrifuge face : -x =

2 Aw
Coriolis
Jorce : Co -
-




Also 1 addit term
eg ?
RHS
.




of momentum


pAdx[T pAstrar ptr d pAdt
&
=
=




the addit Term .




↳ her dx dr and =
u = er

σ
inotcorioi
force ([ =

-2E) ~ Caridir das no work in streamline in relative

- and dang i from
r
*




jadx(a
=

becaus
=> Work
eg.
: dw +
Edp ++ dar = diuc + dW

in rel .



from dW = o since For
within the
roter
perform no work
frame
=>

Energy .:
eg
d1w2 dh +u + = d1ut +
dq d
an
+ that is
turning with the rotor ?

."
var
" in gravity pot . E
negligible : du = o










, & Moment in the obsolute Rotor Work
of momentum from

~ Meridiaal section contains the o




Um Fra + Vr) and No


* Closed Rotor

Moments Pos Sense
running
Moment at showd and hub
*
Mo :
of friction forces on rotor


by flied that does not
flow throug rotor


* Dis
fiction always broking so zo




* M : moment
of pressins and
friction forces ot blac surfaces and end well
by roter
on
fluid
Driving mochin
mochine 30
e
Driven
;
· e

/Pur
receiving e
,
*
Mchoff : moment
by Motor Generator on
shaft
machine
driving machine driven machine
-Dewen >o = o :
,
*
=M Md

Moment Balance of mot Mstoft
= Mchaft
rotor
parts M M
= .




machine
☆ 。 √
Driving
Bhoft =
Prot -Pl
M
Msheft und
- = -
-




Consider now a CV/ inlet 1 - outlet 2)

take momentum balance in de
frame
P
α



m lv _ v ) = I


moment
of momentum bolance
~



areee deee
à lrxěa- iEs v ) = xF
ocial

M
Project on Tã % => in /M2Nou -

(1Vru) = M
radial
↳ minent of


C
Pressure
Assumed shea stresses inlet
no o
fricti
~

faces
and outlet as distation of flow .
Fang
of the locations is small
-Power from the momentM
rotor to
flow by
·
· = M/U2 Vau- Un (10) =
Prot

瓦加
-Work done
per
unit moss on the
flow by M

U2 Nau-Un = An


8
Prhoft = Prot - Pet = AWchoft = =AN + Siem

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Uploaded on
February 8, 2026
Number of pages
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Written in
2025/2026
Type
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