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f
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d
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d
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[
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Po
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[
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4
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s
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4
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Dela
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5
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Dr
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Evaluation Warning : The document was created with Spire.PDF for Python.
I
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8
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Deh
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(
S
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2689
[
7
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,
[
8
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T
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[
9
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-
[
1
1
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.
An
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allin
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[
1
2
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[
1
5
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.
I
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elp
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o
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[
1
6
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Me
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r
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r
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c
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in
p
o
s
th
ar
v
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tech
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[
1
7
]
,
[
1
8
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.
Mo
r
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p
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g
p
lace
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lar
ass
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s
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1
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is
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er
m
is
s
ib
le
tem
p
er
atu
r
e
r
an
g
e,
wh
ic
h
h
el
p
s
b
lo
w
h
o
t
air
in
to
th
e
ac
r
y
l
ic
tu
b
e.
T
h
e
d
u
al
-
c
h
an
n
el
r
el
ay
m
o
d
u
le
c
u
ts
o
f
f
p
o
wer
to
th
e
h
ea
ter
wh
e
n
th
e
p
er
ce
iv
ed
tem
p
er
atu
r
e
f
alls
o
u
ts
id
e
th
e
allo
wab
le
r
an
g
e.
2.
4
.
M
o
is
t
ure
s
ens
o
r
co
ntr
o
l w
o
rk
ing
At
n
ig
h
t,
th
e
b
atter
y
s
er
v
es
as
an
en
er
g
y
s
to
r
ag
e
f
ac
ilit
y
f
o
r
th
e
f
ar
m
h
o
u
s
e'
s
elec
tr
ical
lig
h
ts
.
A
s
o
lar
ch
ar
g
e
co
n
tr
o
ller
c
o
n
tr
o
ls
th
e
b
atter
y
ch
ar
g
e.
T
h
e
d
r
y
er
m
o
d
el
s
h
o
wn
in
Fig
u
r
e
2
was
d
e
s
ig
n
ed
in
Sk
etch
Up
s
o
f
twar
e.
Un
d
er
s
tan
d
th
e
d
esig
n
an
d
s
izin
g
asp
ec
ts
o
f
all
h
ar
d
war
e
co
m
p
o
n
en
ts
in
v
o
l
v
ed
in
th
e
p
r
o
ject.
T
h
e
o
u
ter
s
h
ell
d
im
en
s
io
n
s
ar
e
5
7
5
×
4
3
0
m
m
,
wh
ile
ea
ch
h
o
r
izo
n
ta
l
cy
lin
d
er
m
ea
s
u
r
es
3
6
0
×
3
6
0
m
m
.
T
h
e
co
n
tr
o
l
p
an
el
is
ce
n
ter
ed
o
n
th
e
wall
i
n
th
e
ca
b
in
et,
allo
win
g
all
ca
b
les
an
d
c
o
m
p
o
n
en
ts
to
b
e
ar
r
a
n
g
ed
an
d
o
p
er
ated
f
r
o
m
o
n
e
p
lace
.
T
h
er
e
ar
e
two
DC
f
an
s
in
th
e
h
ea
tin
g
d
u
ct,
an
d
two
h
ea
tin
g
elem
en
ts
en
ab
le
th
em
to
s
u
p
p
ly
h
o
t a
ir
to
th
e
Mo
r
in
g
a
leav
es a
s
n
o
ted
in
[
2
3
]
.
Fig
u
r
e
2
.
Sch
em
atic
d
iag
r
am
o
f
th
e
p
r
o
to
ty
p
e
tr
ea
tm
en
t
2.
5
.
E
x
perim
ent
a
l
s
et
up
T
h
e
h
ar
d
wa
r
e
s
tr
u
ctu
r
e
is
d
es
ig
n
ed
as
s
h
o
wn
in
Fig
u
r
e
2
.
T
h
e
h
o
r
iz
o
n
tal
cy
lin
d
er
is
m
a
d
e
o
f
m
esh
f
o
r
f
lex
ib
ilit
y
a
n
d
f
ea
tu
r
es
h
o
les
th
at
allo
w
air
to
en
te
r
t
h
r
o
u
g
h
th
e
M
o
r
in
g
a
o
leif
e
r
a
leaf
p
late
an
d
t
h
e
cy
lin
d
er
t
u
b
e.
T
h
e
co
d
i
n
g
o
f
Ar
d
u
in
o
Me
g
a
is
b
ased
o
n
t
h
e
r
eq
u
ir
em
en
ts
a
n
d
co
n
n
ec
tio
n
s
to
t
h
e
v
ar
io
u
s
co
m
p
o
n
en
ts
.
T
h
is
s
ec
tio
n
g
i
v
es
a
d
etailed
d
escr
ip
tio
n
o
f
th
e
d
r
y
er
'
s
ex
p
er
im
e
n
tal
s
etu
p
.
Ar
d
u
in
o
Me
g
a
in
ter
f
ac
e,
tem
p
er
atu
r
e
an
d
am
p
lifie
r
; h
u
m
id
ity
s
en
s
o
r
,
r
elay
,
an
d
DC
f
an
: T
h
e
Ar
d
u
in
o
A0
p
in
is
co
n
n
ec
ted
to
th
e
d
ata
p
in
o
f
th
e
DHT
1
1
tem
p
er
atu
r
e
an
d
h
u
m
id
ity
s
en
s
o
r
;
th
e
v
o
ltag
e
co
m
m
o
n
co
l
lecto
r
(
VC
C
)
an
d
g
r
o
u
n
d
(
GND
)
p
i
n
s
ar
e
p
o
wer
ed
.
T
h
e
r
ela
y
m
o
d
u
le
is
co
n
n
ec
ted
to
p
in
s
A1
an
d
A
2
o
f
t
h
e
Ar
d
u
i
n
o
,
an
d
th
e
DC
f
an
is
in
ter
n
ally
co
n
n
ec
ted
to
th
e
r
elay
t
h
at
p
r
o
v
id
es th
e
s
witch
in
g
ac
tio
n
.
Evaluation Warning : The document was created with Spire.PDF for Python.
I
n
t J Po
w
E
lec
&
Dr
i Sy
s
t
I
SS
N:
2088
-
8
6
9
4
Deh
yd
r
a
tio
n
o
f
Mo
r
in
g
a
lea
v
es
u
s
in
g
micro
co
n
tr
o
ller
a
n
d
I
o
T c
o
n
tr
o
lled
…
(
S
a
ifu
d
d
i
n
Mu
h
a
mma
d
J
a
lil
)
2691
2
.
6
.
I
nte
rf
a
cing
o
f
Arduin
o
M
eg
a
,
t
em
pera
t
ure
a
nd
hu
m
idi
t
y
s
ens
o
r,
re
la
y
,
a
nd
DC
f
a
ns
T
h
e
in
ter
f
ac
in
g
o
f
an
Ar
d
u
i
n
o
Me
g
a
with
a
tem
p
er
at
u
r
e
a
n
d
h
u
m
id
ity
s
en
s
o
r
,
r
elay
,
an
d
DC
f
an
s
en
ab
les
th
e
d
ev
el
o
p
m
en
t
o
f
a
n
ef
f
icien
t
en
v
ir
o
n
m
en
tal
co
n
tr
o
l
s
y
s
tem
.
T
h
e
tem
p
e
r
atu
r
e
a
n
d
h
u
m
id
ity
s
en
s
o
r
DHT
1
1
co
n
tin
u
o
u
s
ly
m
o
n
ito
r
s
r
ea
l
-
tim
e
atm
o
s
p
h
er
ic
co
n
d
it
io
n
s
an
d
s
en
d
s
th
e
d
ata
to
th
e
Ar
d
u
in
o
Me
g
a
f
o
r
p
r
o
ce
s
s
in
g
.
B
ased
o
n
th
e
p
r
o
g
r
am
m
ed
th
r
esh
o
ld
v
al
u
es,
th
e
Ar
d
u
in
o
ac
tiv
ates th
e
r
elay
m
o
d
u
le,
wh
ich
ac
ts
as
a
s
witch
to
co
n
tr
o
l
th
e
DC
f
an
s
,
en
s
u
r
in
g
s
af
e
o
p
er
atio
n
wit
h
o
u
t
d
i
r
ec
tly
co
n
n
ec
tin
g
h
ig
h
-
cu
r
r
en
t
c
o
m
p
o
n
en
ts
to
th
e
m
icr
o
co
n
tr
o
ller
.
T
h
is
s
etu
p
p
r
o
v
i
d
es
an
au
to
m
ated
a
n
d
r
eliab
le
m
ec
h
an
is
m
f
o
r
m
ain
tain
in
g
o
p
tim
al
en
v
ir
o
n
m
en
tal
co
n
d
itio
n
s
,
co
m
m
o
n
ly
ap
p
lied
in
s
m
ar
t
a
g
r
icu
ltu
r
e,
g
r
ee
n
h
o
u
s
e
m
o
n
it
o
r
in
g
,
a
n
d
in
d
o
o
r
clim
ate
co
n
tr
o
l
s
y
s
tem
s
.
Pin
A0
o
f
th
e
Ar
d
u
in
o
is
co
n
n
ec
t
ed
to
th
e
d
ata
p
in
o
f
th
e
DHT
1
1
tem
p
er
at
u
r
e
an
d
h
u
m
id
ity
s
en
s
o
r
,
w
h
ile
th
e
VC
C
an
d
GND
p
in
s
ar
e
co
n
n
ec
ted
to
th
e
s
u
p
p
l
y
.
T
h
e
r
elay
m
o
d
u
le
co
n
n
ec
ts
th
e
A1
an
d
A2
p
i
n
s
o
f
t
h
e
Ar
d
u
in
o
,
a
n
d
t
h
e
DC
f
an
s
ar
e
in
ter
n
ally
co
n
n
ec
ted
to
th
e
r
elay
,
p
r
o
v
id
in
g
th
e
s
witch
in
g
ac
tio
n
s
[
2
4
]
.
2.
7
.
H
ea
t
er
c
o
ntr
o
l
T
h
e
h
ea
ter
co
n
tr
o
l,
a
tem
p
er
at
u
r
e
s
en
s
o
r
,
an
d
a
h
u
m
i
d
ity
s
en
s
o
r
ar
e
d
ef
i
n
ed
as
in
p
u
ts
to
t
h
e
Ar
d
u
in
o
Me
g
a
o
n
p
in
s
A0
a
n
d
A1
,
r
es
p
ec
tiv
ely
.
Ar
d
u
in
o
t
h
en
u
s
es
th
e
tem
p
er
atu
r
e
an
d
h
u
m
id
ity
r
ea
d
in
g
s
to
d
e
f
in
e
a
co
n
tr
o
l stra
teg
y
.
A
cr
u
cial
s
tep
is
to
r
eg
u
late
th
e
f
an
's s
p
ee
d
an
d
th
e
h
ea
tin
g
elem
en
t'
s
tem
p
er
atu
r
e,
as th
is
ca
n
ca
u
s
e
th
e
leav
es
to
d
r
y
o
u
t,
l
ea
d
in
g
to
th
eir
p
r
em
atu
r
e
f
all
an
d
s
u
b
s
eq
u
en
t
r
o
t.
Af
ter
n
u
m
er
o
u
s
tr
ials
an
d
er
r
o
r
s
,
th
e
tem
p
er
atu
r
e
v
alu
e
was
s
et
co
r
r
ec
tly
.
Sin
ce
th
e
m
o
is
tu
r
e
co
n
ten
t
o
f
Mo
r
in
g
a
leav
es
s
h
o
u
ld
b
e
b
etwe
en
1
0
% (
wb
)
an
d
8
% (
w
b
)
,
th
is
v
alu
e
was p
r
e
d
eter
m
in
ed
an
d
f
ix
ed
[
2
5
]
.
2.
8
.
Arduin
o
M
eg
a
inte
rf
a
ce
,
hu
m
idi
t
y
s
ens
o
r,
bridg
e
m
o
t
o
r
driv
er
I
C
Fo
r
th
e
s
p
ee
d
o
f
a
h
o
r
izo
n
tal
cy
lin
d
r
ical
DC
m
o
to
r
,
w
h
ich
r
u
n
s
at
a
co
n
s
tan
t
s
p
ee
d
o
f
2
0
r
p
m
,
th
e
h
u
m
id
ity
s
en
s
o
r
v
alu
e
is
an
i
m
p
o
r
tan
t
p
ar
am
eter
th
at
p
r
o
v
id
es
in
p
u
t
to
th
e
Ar
d
u
in
o
Me
g
a.
As
p
r
ev
io
u
s
ly
m
en
tio
n
ed
,
th
e
id
e
al
m
o
is
tu
r
e
co
n
ten
t
f
o
r
s
to
r
in
g
Mo
r
in
g
a
l
ea
v
es
f
o
r
6
-
1
2
m
o
n
th
s
is
ar
o
u
n
d
8
%
-
1
0
%,
s
o
th
e
m
o
is
tu
r
e
co
n
te
n
t
v
alu
e
o
f
th
e
Mo
r
in
g
a
leav
es
in
t
h
is
p
r
o
g
r
am
h
as
a
r
an
g
e
o
f
8
%
W
b
to
1
0
%
W
b
[
2
7
]
.
All
co
n
tr
o
l
ci
r
cu
its
ar
e
c
o
n
n
ec
te
d
,
p
lace
d
o
n
a
s
u
itab
le
p
latf
o
r
m
,
a
n
d
ce
n
ter
ed
o
n
th
e
w
all
o
f
th
e
b
o
x
.
T
h
e
Ar
d
u
in
o
Me
g
a
is
u
s
ed
to
c
o
n
tr
o
l
t
h
e
en
tire
cir
cu
it.
C
o
n
n
ec
tio
n
s
to
th
e
Ar
d
u
in
o
M
eg
a
ar
e
m
ad
e
f
r
o
m
tem
p
er
atu
r
e
an
d
h
u
m
id
ity
s
e
n
s
o
r
s
,
m
o
to
r
d
r
iv
e
r
I
C
s
,
an
d
L
DR
s
[
2
6
]
.
T
h
ese
co
n
n
ec
tio
n
s
f
o
r
m
th
e
co
n
tr
o
l
cir
cu
it
f
o
r
th
e
h
y
d
r
a
u
lic
m
o
to
r
d
r
iv
e
r
a
n
d
h
u
m
i
d
ity
s
en
s
o
r
.
T
h
ese
co
n
n
ec
tio
n
s
f
o
r
m
th
e
co
n
tr
o
l
cir
c
u
it
f
o
r
th
e
h
ea
tin
g
elem
e
n
t.
C
o
n
n
ec
tio
n
s
to
th
e
Ar
d
u
in
o
Me
g
a
c
o
m
e
f
r
o
m
an
I
o
T
tr
an
s
m
itter
s
en
s
o
r
,
tem
p
er
atu
r
e
an
d
h
u
m
id
ity
s
en
s
o
r
s
,
a
d
u
al
-
ch
a
n
n
el
5
V
r
elay
m
o
d
u
le,
an
d
a
ci
r
cu
it b
o
ar
d
.
Fig
u
r
e
3
illu
s
tr
ates
th
e
ex
p
er
i
m
en
tal
s
etu
p
o
f
th
e
d
u
al
-
en
e
r
g
y
s
o
lar
d
r
y
er
s
y
s
tem
.
T
h
e
co
n
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r
Evaluation Warning : The document was created with Spire.PDF for Python.
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I
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t J Po
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t
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Vo
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16
,
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4
,
Dec
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b
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20
25
:
2688
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2
6
9
8
2692
3.
RE
SU
L
T
S AN
D
D
I
SCU
SS
I
O
N
T
h
e
p
r
o
to
ty
p
e
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o
d
el
o
f
a
d
u
al
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en
er
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y
au
to
m
atic
Mo
r
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g
a
leaf
d
r
y
er
s
h
o
ws
th
at
f
a
r
m
er
s
ca
n
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ee
l
co
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f
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ta
b
le,
an
d
th
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d
r
y
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s
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m
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leted
in
a
f
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h
o
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y
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tem
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d
esig
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s
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o
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d
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ir
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ai
r
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aw
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r
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th
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r
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g
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y
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e
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e
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ir
ed
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id
ea
lly
s
u
ited
f
o
r
s
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ag
e.
T
h
e
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alu
e
d
is
p
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o
n
th
e
Ar
d
u
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Me
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ial
m
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alid
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s
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g
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g
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d
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eter
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T
ab
les
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d
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s
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o
w
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h
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m
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g
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r
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u
m
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ity
at
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if
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t
p
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wer
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els.
T
ab
les
1
,
2
,
3
,
4
,
a
n
d
Fig
u
r
es
4
,
5
,
an
d
6
p
r
esen
t
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co
n
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o
lid
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s
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tp
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ts
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clu
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h
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m
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d
m
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tain
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m
th
e
Ar
d
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i
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Me
g
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ial
m
o
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ito
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T
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g
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e
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u
lated
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ter
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e
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f
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M
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m
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en
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s
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h
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s
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a
s
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d
h
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m
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ea
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ata
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ty
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at
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s
th
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d
r
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ce
s
s
o
f
M
o
r
in
g
a
leav
es
.
B
ased
o
n
th
e
d
ata
in
T
ab
le
s
1
an
d
2
,
as
well
as
Fig
u
r
e
4
,
th
e
in
itial
co
n
d
itio
n
s
ar
e
as
f
o
llo
ws:
th
e
wate
r
co
n
ten
t
is
1
9
.
5
%,
an
d
th
e
in
itial
p
o
wer
m
ea
s
u
r
ed
o
n
th
e
b
atter
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is
1
8
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8
5
w
atts
.
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r
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e
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r
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ce
s
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lea
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atter
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o
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h
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it.
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r
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itio
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,
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r
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s
s
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ce
d
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y
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%
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6
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5
%.
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h
e
d
r
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ce
s
s
o
n
th
e
f
ir
s
t
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ay
was
ca
r
r
ied
o
u
t
f
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r
6
h
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r
s
,
with
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ax
im
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m
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atter
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s
ag
e
o
cc
u
r
r
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g
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r
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m
1
2
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o
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0
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ter
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atter
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ce
s
s
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n
tin
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ed
o
n
th
e
b
atter
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n
til 1
5
:0
0
.
Du
r
i
n
g
th
ese
3
h
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r
s
,
th
e
wate
r
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n
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t
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th
e
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r
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p
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d
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atter
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p
ac
i
ty
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n
th
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ir
s
t
d
ay
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ec
am
e
8
6
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5
0
watts.
T
h
e
n
ex
t
d
ay
,
th
e
b
atter
y
ca
p
ac
ity
was
in
itially
at
7
0
.
5
5
watts
wh
ile
th
e
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r
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ten
t
was 1
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%.
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ay
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e
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att
er
y
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ch
ar
g
ed
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im
u
ltan
eo
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s
ly
with
th
e
d
r
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p
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ce
s
s
o
f
th
e
Mo
r
in
g
a
leav
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.
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t
ca
n
b
e
o
b
s
er
v
ed
th
at
th
e
b
atte
r
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ca
p
ac
ity
in
cr
ea
s
es
wh
en
s
o
lar
p
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els
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u
s
ed
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ch
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g
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n
th
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r
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ce
s
s
,
th
e
wate
r
c
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n
ten
t
in
Mo
r
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g
a
lea
v
es
d
r
o
p
s
b
y
3
.
5
%
to
1
2
.
5
%.
T
h
e
d
r
y
i
n
g
p
r
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ce
s
s
co
n
tin
u
es
u
n
til
th
e
th
ir
d
d
ay
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wh
en
t
h
e
m
o
is
tu
r
e
c
o
n
ten
t r
em
ain
s
1
0
%
in
1
3
ex
p
er
im
en
t
s.
Fro
m
T
ab
les
1
,
2
,
an
d
Fig
u
r
e
4
,
a
co
m
p
a
r
is
o
n
is
m
ad
e
with
th
e
alu
m
in
iu
m
m
ater
ial.
T
h
e
s
am
e
b
atter
y
u
s
ag
e
,
p
o
wer
,
an
d
n
u
m
b
er
o
f
Mo
r
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g
a
leav
es
ar
e
a
ls
o
u
s
ed
o
u
t
with
s
tain
less
s
teel
cy
lin
d
er
m
ater
ial.
Acc
o
r
d
in
g
t
o
th
ese
d
ata,
it
is
ev
id
en
t
th
at
t
h
e
wate
r
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n
ten
t
o
n
th
e
f
ir
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t
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ay
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ec
r
ea
s
ed
b
y
4
.
5
%,
an
d
th
e
m
ax
im
u
m
b
atter
y
ca
p
ac
ity
w
as
ac
h
iev
ed
b
etwe
en
1
2
:
0
0
a
n
d
1
3
:0
0
.
Du
r
in
g
th
e
p
er
io
d
o
f
m
ax
im
u
m
b
atter
y
ca
p
ac
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u
s
ag
e,
th
e
m
o
is
tu
r
e
c
o
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t
in
Mo
r
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g
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leav
es
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ec
r
ea
s
ed
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y
2
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ith
th
e
s
am
e
p
o
wer
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p
ac
ity
,
t
h
e
n
ex
t
d
ay
,
with
in
4
h
o
u
r
s
,
th
e
b
atter
y
'
s
co
n
d
itio
n
h
as
im
p
r
o
v
ed
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ec
au
s
e
it
r
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c
h
ar
g
e
f
r
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m
th
e
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o
lar
p
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els.
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r
in
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th
e
d
r
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ce
s
s
,
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e
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r
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t
in
Mo
r
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leav
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d
ec
r
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s
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b
y
3
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5
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T
h
e
d
r
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s
s
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n
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e
d
th
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x
t
d
ay
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e
m
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tu
r
e
co
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ten
t
r
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ch
ed
9
%
in
1
3
ex
p
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m
en
t
s
.
T
h
e
b
atter
y
ca
p
ac
ity
d
o
u
b
led
f
r
o
m
t
h
e
p
r
e
v
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u
s
4
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.
1
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watts o
n
th
e
th
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d
d
ay
d
u
e
to
o
p
tim
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s
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n
lig
h
t.
T
ab
le
1
.
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t
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atter
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ch
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g
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f
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k
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f
M
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Ex
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3
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L
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L
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