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lo
w
r
ate
to
th
e
tu
r
b
in
e
with
C
VM
.
Pelto
n
ty
p
e
t
u
r
b
in
e
is
u
s
ed
,
h
a
s
in
p
u
t
en
e
r
g
y
(
Pin
)
in
th
e
f
o
r
m
o
f
wate
r
p
r
ess
u
r
e
o
n
a
tu
r
b
i
n
e
d
r
i
v
in
g
th
e
tu
r
b
in
e
b
lad
e
a
n
d
p
r
o
d
u
ci
n
g
k
in
etic
en
e
r
g
y
(
Pm
)
in
th
e
f
o
r
m
o
f
r
o
tatio
n
.
T
u
r
b
in
e
ef
f
icien
cy
is
d
e
f
in
ed
as
th
e
r
atio
o
f
in
p
u
t
en
e
r
g
y
to
g
en
er
ated
k
in
etic
e
n
er
g
y
.
T
u
r
b
in
e
ef
f
icien
c
y
s
h
o
u
ld
b
e
b
etwe
en
8
0
%
an
d
9
0
%.
T
u
r
b
in
e
b
lad
es,
p
en
s
to
ck
p
ip
es,
n
o
zz
les,
an
d
wate
r
g
u
id
es
ar
e
s
o
m
e
o
f
t
h
e
co
m
p
o
n
en
ts
th
at
in
f
lu
e
n
ce
th
e
v
alu
e
o
f
lo
w
tu
r
b
in
e
ef
f
icie
n
c
y
[
1
0
]
,
[
2
1
]
-
[
2
7
]
.
T
h
e
tu
r
b
i
n
e
'
s
m
ec
h
an
ical
en
er
g
y
th
en
r
o
t
ates
th
e
g
en
er
ato
r
,
co
n
v
er
tin
g
m
ec
h
a
n
ical
en
er
g
y
to
elec
tr
ical
en
er
g
y
.
T
h
e
r
o
t
a
t
i
o
n
c
o
n
t
r
o
l
s
y
s
t
e
m
i
n
l
a
r
g
e
-
s
c
al
e
g
e
n
e
r
a
t
o
r
s
e
m
p
l
o
y
s
a
h
y
d
r
a
u
l
i
c
v
a
l
v
e
w
i
t
h
g
o
v
e
r
n
o
r
c
o
n
t
r
o
l
[
1
3
]
,
[
28]
-
[
3
2
]
.
T
h
e
t
u
r
b
i
n
e
i
s
s
e
t
t
o
r
o
t
a
te
a
t
a
c
o
n
s
ta
n
t
r
a
t
e
,
w
h
i
c
h
r
e
q
u
i
r
e
s
c
o
n
t
r
o
l
li
n
g
t
h
e
c
o
n
t
r
o
l
v
a
l
v
e
s
o
t
h
a
t
t
h
e
f
l
o
w
t
o
t
h
e
t
u
r
b
i
n
e
i
s
a
lw
a
y
s
s
t
a
b
le
[
1
]
,
[
1
5
]
,
[
3
3
]
.
T
h
e
s
y
n
c
h
r
o
n
o
u
s
g
e
n
e
r
a
t
o
r
,
A
V
R
e
x
c
i
ta
t
i
o
n
,
a
n
d
a
u
t
o
m
a
t
i
c
g
o
v
e
r
n
o
r
c
o
n
t
r
o
l
(
A
G
C
)
a
r
e
t
h
e
t
h
r
e
e
m
a
i
n
c
o
m
p
o
n
e
n
t
s
o
f
t
h
e
g
e
n
e
r
a
t
i
o
n
s
y
s
t
e
m
[
1
]
,
[
6
]
,
[
1
7
]
-
[
2
0
]
,
[
2
9
]
,
[
3
0
]
.
T
h
e
t
u
r
b
i
n
e
s
y
s
t
em
,
g
e
n
e
r
a
t
o
r
s
y
s
t
e
m
,
a
n
d
c
o
n
t
r
o
l
s
y
s
t
e
m
a
r
e
t
h
e
t
h
r
e
e
m
ain
c
o
m
p
o
n
e
n
t
s
o
f
a
h
y
d
r
o
e
l
e
c
t
r
i
c
e
n
e
r
g
y
g
e
n
e
r
a
tio
n
s
y
s
t
e
m
.
T
h
e
a
d
v
a
n
t
a
g
es
a
n
d
d
i
s
a
d
v
a
n
t
a
g
es
o
f
t
h
es
e
t
y
p
e
s
o
f
t
u
r
b
i
n
es
,
p
a
r
t
i
c
u
l
a
r
l
y
f
o
r
a
v
e
r
y
s
p
e
c
i
f
ic
d
e
s
i
g
n
,
c
a
n
b
e
u
s
e
d
t
o
d
e
te
r
m
i
n
e
t
h
e
t
y
p
e
o
f
t
u
r
b
i
n
e
t
o
b
e
u
s
e
d
.
I
n
t
h
e
e
a
r
l
y
s
t
a
g
es
,
t
h
e
t
y
p
e
o
f
t
u
r
b
i
n
e
c
a
n
b
e
c
o
n
s
i
d
e
r
e
d
b
y
t
a
k
i
n
g
i
n
t
o
a
cc
o
u
n
t
t
h
e
s
p
e
ci
a
l
p
a
r
a
m
et
e
r
s
t
h
a
t
a
f
f
e
c
t
t
h
e
t
u
r
b
i
n
e
o
p
e
r
a
t
i
n
g
s
y
s
t
e
m
,
a
s
i
n
r
e
f
e
r
e
n
c
e
[
3
0
]
,
[
3
2
]
.
A
s
t
h
e
l
o
a
d
i
n
f
l
u
e
n
c
e
s
t
h
e
g
e
n
e
r
a
t
o
r
'
s
r
o
ta
t
i
o
n
s
p
e
e
d
.
C
o
n
s
e
q
u
e
n
t
l
y
,
f
r
e
q
u
e
n
c
y
c
o
n
t
r
o
l
i
s
r
e
q
u
i
r
e
d
i
n
t
h
e
w
o
r
k
i
n
g
e
n
v
i
r
o
n
m
e
n
t
.
C
u
r
r
e
n
t
l
y
,
E
L
C
s
a
r
e
f
r
e
q
u
e
n
t
ly
u
s
e
d
t
o
d
e
v
e
l
o
p
v
a
r
i
o
u
s
k
n
o
w
l
e
d
g
e
s
u
c
h
a
s
v
e
h
i
c
l
e
s
t
e
e
r
c
o
n
t
r
o
l
a
ls
o
t
o
e
n
s
u
r
e
v
o
l
t
a
g
e
a
n
d
f
r
e
q
u
e
n
c
y
s
ta
b
i
l
i
t
y
.
A
s
a
r
e
s
u
l
t,
r
e
s
e
a
r
c
h
e
r
s
w
e
r
e
e
a
g
e
r
t
o
e
x
p
er
i
m
e
n
t
w
it
h
P
I
D
c
o
n
t
r
o
l
l
e
r
s
t
o
o
p
t
i
m
i
z
e
t
h
e
A
VR
b
as
e
d
o
n
C
V
M
.
A
C
VM
is
u
s
ed
b
e
c
a
u
s
e
i
t
i
s
s
i
m
p
l
e
r
t
h
a
n
a
c
o
n
t
r
o
l
v
a
l
v
e
,
w
h
i
c
h
n
e
e
d
s
p
r
es
s
u
r
i
ze
d
a
i
r
o
r
a
s
o
u
r
c
e
o
f
h
y
d
r
a
u
l
i
c
p
r
e
s
s
u
r
e
t
o
o
p
e
r
a
t
e
.
T
h
is
s
tu
d
y
was
ca
r
r
ied
o
u
t
b
y
d
esig
n
i
n
g
a
n
d
im
p
le
m
en
tin
g
th
e
C
VM
m
eth
o
d
to
co
n
tr
o
l
th
e
r
o
tatio
n
o
f
th
e
Pelto
n
tu
r
b
in
e
wh
ich
is
co
u
p
le
d
to
th
e
g
en
er
at
o
r
in
a
m
icr
o
h
y
d
r
o
g
e
n
er
ato
r
.
A
c
o
n
tr
o
l
v
alv
e
th
at
m
a
y
b
e
o
p
e
n
ed
t
o
a
d
if
f
e
r
e
n
t
d
e
g
r
ee
an
d
is
d
r
iv
en
b
y
an
elec
tr
ic
m
o
to
r
is
k
n
o
wn
as
a
c
o
n
tr
o
l
v
alv
e
m
o
to
r
izatio
n
(
C
VM
)
.
T
h
e
s
ig
n
al
g
iv
en
at
0
–
1
0
v
o
lts
d
eter
m
in
es
th
e
p
r
o
p
o
r
tio
n
o
f
C
VM
v
alv
e
o
p
e
n
in
g
.
Sectio
n
s
in
th
is
s
tu
d
y
a
r
e
as
f
o
llo
ws:
i)
Sectio
n
o
n
e
i
n
tr
o
d
u
ce
s
C
VM
an
d
th
e
m
eth
o
d
t
h
at
ca
n
b
e
u
s
ed
to
r
e
g
u
late
th
e
r
o
tatio
n
o
f
th
e
Pelto
n
tu
r
b
in
e
d
u
e
to
g
en
er
ate
v
o
ltag
e
in
th
e
m
ic
r
o
h
y
d
r
o
p
o
wer
p
lan
t
s
y
s
tem
;
ii)
Sectio
n
two
p
r
o
p
o
s
es
an
d
ex
p
lain
s
th
e
in
n
o
v
a
tiv
e
m
eth
o
d
in
r
eg
u
latin
g
th
e
r
o
tatio
n
o
f
Pelto
n
tu
r
b
in
e
d
u
e
to
g
e
n
er
ate
v
o
lta
g
e
in
th
e
m
icr
o
h
y
d
r
o
p
o
wer
p
lan
t
s
y
s
tem
;
iii)
Sectio
n
th
r
ee
s
im
u
latin
g
an
d
an
aly
zin
g
t
h
e
p
r
o
p
o
s
ed
s
y
s
tem
to
s
ee
th
e
p
lan
t
r
esp
o
n
d
s
an
d
also
d
eter
m
i
n
in
g
th
e
PID
p
a
r
am
eter
s
(
s
tab
le
an
d
u
n
s
tab
le
co
n
d
itio
n
s
)
an
d
ad
d
r
ess
in
g
it
to
th
e
lo
a
d
ch
a
n
g
es
cir
cu
m
s
tan
ce
s
;
iv
)
an
d
T
h
e
f
in
al
s
ec
tio
n
is
co
n
clu
d
in
g
th
e
b
eh
av
io
r
o
f
th
e
p
r
o
p
o
s
ed
s
y
s
tem
.
2.
M
E
T
H
O
D
T
h
e
g
en
er
ato
r
s
y
s
tem
is
th
e
lo
ad
th
at
th
e
tu
r
b
in
e
m
u
s
t
d
r
iv
e
in
o
r
d
er
to
p
r
o
d
u
ce
a
v
o
ltag
e
at
a
s
p
ec
if
ic
f
r
eq
u
e
n
cy
[
3
4
]
-
[
3
7
]
.
Acc
o
r
d
in
g
to
(
1
)
,
th
e
n
ee
d
f
o
r
g
e
n
er
ato
r
r
o
tatio
n
m
u
s
t
b
e
m
et
b
ased
o
n
t
h
e
n
u
m
b
er
o
f
p
o
les
an
d
th
e
d
esire
d
f
r
eq
u
en
cy
.
At
th
e
s
am
e
p
o
in
t,
th
e
tu
r
b
i
n
e
r
o
tates
th
e
r
o
to
r
m
ag
n
etic
f
ield
,
wh
ich
in
d
u
ce
s
a
m
ag
n
et
to
th
e
s
tato
r
co
il
an
d
r
esu
lts
in
th
e
i
n
d
u
ce
d
v
o
ltag
e
[
3
0
]
,
[
3
2
]
.
T
h
e
(
2
)
d
escr
ib
es
h
o
w
m
u
ch
v
o
ltag
e
is
p
r
o
d
u
ce
d
.
=
(
120
.
)
(
1
)
W
h
er
e
is
s
y
n
ch
r
o
n
o
u
s
r
o
tatio
n
(
r
p
m
)
;
is
f
r
eq
u
en
cy
(
Hz)
; a
n
d
is
th
e
n
u
m
b
er
o
f
p
o
les
.
=
4
.
44
×
×
×
(
2
)
W
h
er
e
is
in
d
u
ce
d
v
o
ltag
e
(
v
o
lts
)
;
is
f
r
eq
u
en
cy
(
Hz)
;
is
t
h
e
n
u
m
b
er
o
f
tu
r
n
s
;
an
d
is
f
lu
x
m
ag
n
etic
f
ield
ex
citatio
n
(
wb
)
.
Evaluation Warning : The document was created with Spire.PDF for Python.
I
SS
N
:
2
2
5
2
-
8
7
9
2
I
n
t J Ap
p
l Po
wer
E
n
g
,
Vo
l.
1
4
,
No
.
1
,
Ma
r
ch
20
2
5
:
90
-
100
92
T
h
e
r
o
tatio
n
c
o
n
tr
o
l
s
y
s
tem
i
s
u
s
ed
o
n
th
e
tu
r
b
in
e
to
ad
ju
s
t
th
e
f
lo
w
r
ate
b
y
a
d
ju
s
tin
g
th
e
C
VM
o
p
en
in
g
.
T
h
e
t
u
r
b
in
e
p
o
wer
is
r
elate
d
to
th
e
f
l
o
w
r
ate
Q
in
th
e
p
en
s
to
ck
,
as sh
o
wn
in
(
3
)
.
=
9
.
81
×
×
×
_
(
3
)
W
h
er
e
is
t
u
r
b
in
e
p
o
wer
(
k
W
)
;
is
w
ater
d
is
ch
ar
g
e
(
m
3
/s
)
; a
n
d
is
e
f
f
ec
tiv
e
h
ea
d
h
ei
g
h
t (
m
)
.
C
VM
ca
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ased
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h
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atch
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[
1
7
]
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T
h
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e
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atin
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[
2
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T
h
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[
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PID
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cts
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Fig
u
r
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1
illu
s
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ates
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tem
d
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Pelto
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r
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u
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1
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19
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4
].
T
ab
le
1
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PID
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l p
a
r
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f
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Pelto
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ato
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esig
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Fig
u
r
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2
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R
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iag
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Evaluation Warning : The document was created with Spire.PDF for Python.
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C
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ize
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Fig
u
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3
illu
s
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ates
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r
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e
w
h
ich
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p
led
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ato
r
in
a
m
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Fig
u
r
e
3
.
M
icr
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3.
RE
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D
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r
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r
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At
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r
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ata
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ess
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d
m
an
ip
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.
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tech
n
i
q
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e
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r
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lv
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s
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a
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r
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ir
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r
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o
f
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er
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th
e
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s
to
ck
to
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s
th
e
Pelto
n
tu
r
b
in
e.
C
o
n
s
tr
u
ctio
n
is
r
eq
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ir
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a
n
d
t
h
e
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ts
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e
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er
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lar
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er
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izes
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eg
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ess
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r
e
o
r
f
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e
r
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id
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ip
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ly
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f
th
e
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ize
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s
ed
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e
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r
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ce
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u
r
e
to
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r
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ess
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r
e
o
r
f
lo
w
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r
o
m
it.
F
ig
u
r
e
3
illu
s
tr
ates
a
Pelto
n
tu
r
b
in
e
co
u
p
led
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g
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er
ato
r
in
a
m
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o
h
y
d
r
o
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wer
p
lan
t.
3
.
1
.
P
r
o
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s
ed
s
y
s
t
em
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s
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ener
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l descript
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n
T
h
e
wate
r
p
r
ess
u
r
e
co
m
i
n
g
o
u
t
o
f
t
h
e
tu
r
b
in
e
is
1
AT
M
=
1
0
3
2
2
k
g
/m
2
.
T
h
e
d
en
s
ity
o
f
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r
is
1
g
/cm
3
,
wh
ich
is
1
0
0
0
k
g
/m
3
,
s
o
th
e
weig
h
t o
f
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r
is
1
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0
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g
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×
9
.
8
m
/s
2
=
9
8
0
0
Kg
/
m
2
s
2
.
T
h
e
r
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lts
o
f
th
e
m
ea
s
u
r
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en
ts
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r
r
ie
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o
u
t
ar
e
th
e
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r
p
r
ess
u
r
e
in
th
e
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en
s
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m
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s
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r
in
g
th
e
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r
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r
e
g
au
g
e
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d
in
g
t
o
th
e
tu
r
b
in
e
Pelto
n
o
f
4
k
g
/cm
2
with
a
h
eig
h
t
o
f
3
.
0
3
m
.
W
e
g
o
t
th
e
p
lan
t
r
esp
o
n
s
e
as
s
h
o
wn
in
Fig
u
r
e
4
.
T
h
e
r
esp
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s
es
th
at
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n
b
e
a
n
aly
ze
d
ar
e
th
e
d
elay
tim
e
(
td
)
,
r
is
e
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e
(
tr
)
,
to
p
tim
e
(
tp
)
,
s
et
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e
(
ts
)
,
an
d
o
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e
r
s
h
o
o
t
(
m
p
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es
th
a
t
o
cc
u
r
r
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.
T
h
e
T
d
v
alu
e
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s
,
Tr
=
2
.
5
s
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3
.
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s
,
ts
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7
s
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3
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I
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o
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a
n
d
f
r
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u
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ates
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a
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ar
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r
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e
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i
r
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o
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ated
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lly
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d
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t
h
e
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elf
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ter
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e
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o
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m
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ller
'
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elf
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e
PID
co
n
tr
o
l
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ar
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eter
s
wer
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et
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1
2
7
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8
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Ti
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2
5
s
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d
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as sh
o
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Fig
u
r
e
1
3
.
Fig
u
r
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0
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3
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ad
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itio
n
r
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Evaluation Warning : The document was created with Spire.PDF for Python.
I
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SS
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d
T
d
is
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o
n
d
s
.
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I
SS
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2
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2
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at
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itial tim
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t
r
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r
p
a
r
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me
t
e
r
(
P
B
)
%
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me
d
e
l
a
y
(
Td
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(
s)
Ti
me
r
i
se
(
Tr
)
(
s)
Ti
me
p
e
a
k
(
T
p
)
(
s)
Ti
me
se
t
t
i
n
g
(
Ts)
(
s)
O
v
e
r
sh
o
o
t
p
e
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t
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g
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p
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1
2
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5
5
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1
7
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1
9
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6
1
0
0
1
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2
4
7
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2
35
1
2
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3
50
1
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5
2
.
7
7
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5
28
20
4.
CO
NCLU
SI
O
N
T
h
e
p
r
o
p
o
s
ed
s
y
s
tem
is
d
esig
n
ed
u
s
in
g
th
e
C
VM
m
eth
o
d
to
co
n
tr
o
l th
e
r
o
tatio
n
o
f
th
e
Pelto
n
tu
r
b
in
e
wh
ich
is
co
u
p
led
to
th
e
g
en
er
ato
r
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a
m
icr
o
h
y
d
r
o
g
en
e
r
ato
r
.
A
r
o
tatio
n
o
f
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5
0
r
p
m
i
s
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r
o
d
u
ce
d
b
y
th
e
m
ea
s
u
r
em
en
t
o
f
a
p
r
ess
u
r
e
o
f
4
k
g
/cm
2
,
a
p
o
ten
tial
en
e
r
g
y
o
f
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k
g
,
an
d
a
h
eig
h
t
o
f
3
m
eter
s
.
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2
k
W
B
L
DC
g
en
er
ato
r
is
lin
k
e
d
with
th
is
r
o
tatio
n
.
T
ac
h
o
g
en
e
r
ato
r
s
en
s
o
r
in
p
u
t
0
-
1
0
v
o
lts
lin
ea
r
ly
,
a
2
4
-
v
o
lt
DC
v
o
ltag
e
s
o
u
r
ce
as
a
C
VM
v
o
ltag
e
s
o
u
r
ce
,
an
d
a
0
-
1
0
v
o
lt
s
an
alo
g
i
n
p
u
t
a
n
d
o
u
tp
u
t
co
n
tr
o
ller
ar
e
all
in
clu
d
e
d
in
th
e
co
n
tr
o
l
p
an
el
in
s
tallatio
n
.
T
h
e
tu
n
in
g
r
esu
lts
o
f
th
e
PID
co
n
tr
o
ller
c
o
n
tr
o
l
p
ar
a
m
eter
s
ar
e
d
ete
r
m
in
ed
at
T
i
2
.
8
s
ec
o
n
d
s
,
an
d
a
p
p
lied
f
o
r
PB
1
3
0
%,
1
0
0
%,
an
d
5
0
%,
r
esp
ec
tiv
ely
.
Ho
wev
e
r
,
th
e
u
n
s
tab
le
s
y
s
tem
h
as
o
cc
u
r
r
e
d
at
PB
3
3
%.
As
th
e
t
wo
s
ets
o
f
PB
wer
e
s
im
u
late
d
,
1
0
0
%
an
d
5
0
%,
r
esp
ec
tiv
e
ly
,
th
e
r
esu
lts
s
h
o
w
th
at
th
e
s
tead
y
-
s
tate
tim
e
r
ea
ch
es
3
5
s
ec
o
n
d
s
with
Kp
2
(
PB
5
0
%),
b
u
t
o
n
l
y
2
8
s
ec
o
n
d
s
with
Kp
1
.
W
h
en
lo
ad
in
g
an
d
u
n
lo
ad
in
g
o
cc
u
r
r
ed
,
at
a
s
tatic
s
tate
tim
e
is
o
n
ly
5
s
ec
o
n
d
s
,
th
e
s
y
s
te
m
r
ea
ch
ed
a
s
tead
y
s
tate
co
n
d
itio
n
,
a
n
d
th
e
o
v
er
s
h
o
o
t
r
esp
o
n
s
e
o
cc
u
r
r
e
d
.
C
o
n
tr
o
llin
g
th
e
s
et
p
o
in
t
v
alu
es
at
5
5
%,
ca
u
s
es
th
e
C
VM
to
b
e
s
et
at
3
8
%,
r
esu
ltin
g
in
a
f
r
eq
u
en
cy
o
f
5
0
Hz
an
d
a
v
o
lta
g
e
o
f
6
1
v
o
lts
.
T
h
e
c
o
n
d
itio
n
i
s
th
at
th
e
s
y
s
tem
is
d
is
tu
r
b
ed
b
y
co
n
n
ec
tin
g
an
d
d
is
co
n
n
ec
tin
g
t
h
e
lo
ad
;
h
o
we
v
er
,
th
e
s
y
s
tem
r
em
ain
s
s
tab
le
f
o
r
a
p
p
r
o
x
im
ately
5
s
ec
o
n
d
s
.
T
h
e
C
VM
is
u
s
ed
to
r
eg
u
late
wate
r
p
r
ess
u
r
e
in
th
e
Pelto
n
tu
r
b
in
e
in
th
is
latest
d
esig
n
.
T
h
i
s
s
y
s
tem
is
m
o
r
e
ef
f
ec
tiv
e
an
d
ef
f
icien
t
i
f
th
e
elec
tr
ical
e
n
er
g
y
p
r
o
d
u
c
ed
is
s
tab
le
u
n
d
er
v
ar
y
in
g
lo
ad
s
itu
atio
n
s
.
As
a
r
esu
lt,
with
r
ea
d
y
-
to
-
u
s
e
m
o
d
u
les,
th
is
s
y
s
tem
m
ay
b
e
d
ep
l
o
y
ed
i
n
th
e
f
ield
.
T
h
e
c
o
n
tr
o
l
r
esp
o
n
s
e
s
h
o
ws
th
at
th
e
co
n
tr
o
l sy
s
tem
is
s
tab
le.
ACK
NO
WL
E
DG
E
M
E
NT
S
Au
th
o
r
th
an
k
s
to
Pu
s
at
Pen
elitian
d
an
Pen
g
ab
d
ian
k
e
p
ad
a
Ma
s
y
ar
ak
at
(
P3
M)
o
f
Po
litek
n
ik
Neg
er
i
L
h
o
k
s
eu
m
awe
wh
o
in
m
o
s
t c
ases
,
s
p
o
n
s
o
r
ed
an
d
f
in
an
cially
s
u
p
p
o
r
ted
a
ck
n
o
wled
g
m
en
ts
.
RE
F
E
R
E
NC
E
S
[
1
]
R
.
F
i
r
m
a
n
s
y
a
h
,
M
.
A
l
i
,
D
.
A
j
i
a
t
m
o
,
A
.
R
a
i
k
h
a
n
i
,
a
n
d
M
.
S
i
sw
a
n
t
o
,
“
O
p
t
i
mi
z
a
t
i
o
n
o
f
A
V
R
i
n
mi
c
r
o
-
h
y
d
r
o
p
o
w
e
r
p
l
a
n
t
u
si
n
g
d
i
f
f
e
r
e
n
t
i
a
l
e
v
o
l
u
t
i
o
n
(
D
E)
me
t
h
o
d
,
”
Fro
n
t
i
e
r
E
n
e
r
g
y
S
y
s
t
e
m
a
n
d
P
o
w
e
r
E
n
g
i
n
e
e
ri
n
g
,
v
o
l
.
2
,
n
o
.
1
,
p
p
.
1
–
6
,
2
0
2
0
,
d
o
i
:
1
0
.
1
7
9
7
7
/
u
m
0
4
8
v
2
i
1
p
1
-
6.
[
2
]
H
.
A
r
d
i
a
n
s
y
a
h
,
“
H
y
d
r
o
p
o
w
e
r
t
e
c
h
n
o
l
o
g
y
:
p
o
t
e
n
t
i
a
l
,
c
h
a
l
l
e
n
g
e
s,
a
n
d
t
h
e
f
u
t
u
r
e
,
”
i
n
I
n
d
o
n
e
si
a
P
o
st
-
P
a
n
d
e
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