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Interrelation between configuration of electrodes for induction electric charging and collector current wind EHD power generator
WRJX 1996
INTERRELATION ELECTRIC
BETWEEN
CONFIGURATION
CHARGING AND COLLECTOR
OF ELECTRODES
FOR INDUCTION
CURRENT WIND EHD POWER GENERATOR
MSATO
Department of Electrical Engineering,Faculty of Engineering,HachinoheInstitute of Technology, 88- 1 Myo,Hachinohe 03lJapan
ABSTRACT This work aims to realize induction electric
a wind electrohydro-
dynamical (EHD)
charging with a water jet.The
electrodes
power generator
using
for induction electric charging
are composed of an orifice of which inner radius is 1.5mmand a ring made of a copper wire of which diameter is 1.5tnm.Itis important to design the electrodes that maximize induction electric
charge.In
this paper,it is experimentaly
clarified that the ring electrode
of inner
diameter of 3.7~1ngives the collector short current of the wind EHD power generator more than that of 4.7cm but has dispersion 4.7cm
of the collector
short current
more than that of
.
KEYWORDS Electrohydro-dynamical
generator;wind
power;induction
electric charging; collector short
current.
INTRODUCTION The author has conducted
a variational
analysis
of the optimal
conversion
process
of
incompressible EFD generation (Sate et al., 1976).The optimal shape of an EFD power generation duct has also been discussed and its effectiveness has been demonstrated by 1981). In this case, the method of field emission was used
experimental
means(Sat0 et al.,
for injection
of the charge into the working
fluid in the generation
duct.However,the
variational analysis of the optimal conversion process of compressible EHD generation has not been attempted.Accordingly,this paper deals with wind EHD power generation that directly converts wind power to electric power.The working fluid is air that is compressible. Marks (1982) reported the experimental
results of the wind EHD power generator using induction
827
WFEC 1996 electric
charging
In this case, a water jet issuing under water
pressure
from a small
diameter (25- 100 u m) orifice was used.It is important to design the electrodes that maximize induction
electric
electrode
and the distance
charge-This
paper describes
from the orifice
influences
of the diameter
to the ring on the relation
of the ring between
the
collector short current of the wind EHD power generator and the applied voltage to the ring.
PRINCIPLE
OF WIND EHD POWER GENERATION
EXPERIMENTAL The experimental
AND
APPARATUS
apparatus of the wind EHD power generator
charging is shown in Fii.l.Instead
using induction electric
of wind power,the gas flow by a compressor was used.Liquid
aerosol particles are simultaneously formed and charged instantaneously between the orifice and the ring.The downstream
charged droplets give up their charge to the collector
in moving gas.The collector electrode
electrode
placed
is connected to the load resistance and
charges accumulate there.The charged droplets in the energy conversion region and electric charges at the collector
electrode
charged droplets are transported electric
force in the opposite
exert Coulomb’s force on each other.Consequently,the to the collector
direction
electrode
while they are pushed by the
to the gas flow.Threrfore,wind
power is directly
transformedinto electric energy in this process.
01
Fig.1. Experimental apparatus. RESULTS AND DISCUSSION Figure 2 shows influence of the polarity of the applied voltage to thering electrode relation
between
the collector
short current and the applied voltage.The
on the
collector
was
shorted to measure a quantity of charge generated by using induction electric charging.The collector
short current
is increased
in proportion
to the applied yoltage.The
collector
short current in case of positive polarity is 3.4 times as much as negative polarity.Figure
828
WREC 1996
3 shows influence of diameter
of the ring electrode
short current and the applied voltage.The the collector
short current
on the relation between
ring electrode
the collector
of inner diameter of 3.7~10gives
more than that of 4.7cm but has dispersion
of the collector
short current more than that of 4.7cm. The relation between the collector short current and the distance from the orifice to the ring is linear as shown in Fig.4.Because induction
electric
charging gets wider in range as the distance between
the ring becomes longer.But it is seemed that the optimal distance
the space for
the orifice
and
between the electrodes
exists.
Applied voltage ( kV ) Fig.2. Influence of polarity on relation between collector short current and applied voltage.
Applied voltage ( kV) Fig.3. Infhtence of diameter of the ring on relation between collector short current and applied voltage.
a29
WREC1996
i
01 Distance between the electrodes ( m 1
Fii.4. Relation between collector short current and distance from the orifice to the ring.
REFERENCES Sato,M.and Y.Ozawa
(1976).0ptimal
duct configuation
of EFD electric
power generation.
Electrical Engineering in Japan,% 23- 30 Sato,M.and M.Baba (1981)Characteristics
of incompressible type EFD power generator using
optimal configuration duct.1981 National ConfInstitute of Electrical Engineers of Japan,965 Marks&M.
(1982).A charged aerosol wind/electric power generator using induction electric
charging with a micro water jet.Institute of Electrical and Electronics Engineers,496- 591
830
INTERRELATION ELECTRIC
BETWEEN
CONFIGURATION
CHARGING AND COLLECTOR
OF ELECTRODES
FOR INDUCTION
CURRENT WIND EHD POWER GENERATOR
MSATO
Department of Electrical Engineering,Faculty of Engineering,HachinoheInstitute of Technology, 88- 1 Myo,Hachinohe 03lJapan
ABSTRACT This work aims to realize induction electric
a wind electrohydro-
dynamical (EHD)
charging with a water jet.The
electrodes
power generator
using
for induction electric charging
are composed of an orifice of which inner radius is 1.5mmand a ring made of a copper wire of which diameter is 1.5tnm.Itis important to design the electrodes that maximize induction electric
charge.In
this paper,it is experimentaly
clarified that the ring electrode
of inner
diameter of 3.7~1ngives the collector short current of the wind EHD power generator more than that of 4.7cm but has dispersion 4.7cm
of the collector
short current
more than that of
.
KEYWORDS Electrohydro-dynamical
generator;wind
power;induction
electric charging; collector short
current.
INTRODUCTION The author has conducted
a variational
analysis
of the optimal
conversion
process
of
incompressible EFD generation (Sate et al., 1976).The optimal shape of an EFD power generation duct has also been discussed and its effectiveness has been demonstrated by 1981). In this case, the method of field emission was used
experimental
means(Sat0 et al.,
for injection
of the charge into the working
fluid in the generation
duct.However,the
variational analysis of the optimal conversion process of compressible EHD generation has not been attempted.Accordingly,this paper deals with wind EHD power generation that directly converts wind power to electric power.The working fluid is air that is compressible. Marks (1982) reported the experimental
results of the wind EHD power generator using induction
827
WFEC 1996 electric
charging
In this case, a water jet issuing under water
pressure
from a small
diameter (25- 100 u m) orifice was used.It is important to design the electrodes that maximize induction
electric
electrode
and the distance
charge-This
paper describes
from the orifice
influences
of the diameter
to the ring on the relation
of the ring between
the
collector short current of the wind EHD power generator and the applied voltage to the ring.
PRINCIPLE
OF WIND EHD POWER GENERATION
EXPERIMENTAL The experimental
AND
APPARATUS
apparatus of the wind EHD power generator
charging is shown in Fii.l.Instead
using induction electric
of wind power,the gas flow by a compressor was used.Liquid
aerosol particles are simultaneously formed and charged instantaneously between the orifice and the ring.The downstream
charged droplets give up their charge to the collector
in moving gas.The collector electrode
electrode
placed
is connected to the load resistance and
charges accumulate there.The charged droplets in the energy conversion region and electric charges at the collector
electrode
charged droplets are transported electric
force in the opposite
exert Coulomb’s force on each other.Consequently,the to the collector
direction
electrode
while they are pushed by the
to the gas flow.Threrfore,wind
power is directly
transformedinto electric energy in this process.
01
Fig.1. Experimental apparatus. RESULTS AND DISCUSSION Figure 2 shows influence of the polarity of the applied voltage to thering electrode relation
between
the collector
short current and the applied voltage.The
on the
collector
was
shorted to measure a quantity of charge generated by using induction electric charging.The collector
short current
is increased
in proportion
to the applied yoltage.The
collector
short current in case of positive polarity is 3.4 times as much as negative polarity.Figure
828
WREC 1996
3 shows influence of diameter
of the ring electrode
short current and the applied voltage.The the collector
short current
on the relation between
ring electrode
the collector
of inner diameter of 3.7~10gives
more than that of 4.7cm but has dispersion
of the collector
short current more than that of 4.7cm. The relation between the collector short current and the distance from the orifice to the ring is linear as shown in Fig.4.Because induction
electric
charging gets wider in range as the distance between
the ring becomes longer.But it is seemed that the optimal distance
the space for
the orifice
and
between the electrodes
exists.
Applied voltage ( kV ) Fig.2. Influence of polarity on relation between collector short current and applied voltage.
Applied voltage ( kV) Fig.3. Infhtence of diameter of the ring on relation between collector short current and applied voltage.
a29
WREC1996
i
01 Distance between the electrodes ( m 1
Fii.4. Relation between collector short current and distance from the orifice to the ring.
REFERENCES Sato,M.and Y.Ozawa
(1976).0ptimal
duct configuation
of EFD electric
power generation.
Electrical Engineering in Japan,% 23- 30 Sato,M.and M.Baba (1981)Characteristics
of incompressible type EFD power generator using
optimal configuration duct.1981 National ConfInstitute of Electrical Engineers of Japan,965 Marks&M.
(1982).A charged aerosol wind/electric power generator using induction electric
charging with a micro water jet.Institute of Electrical and Electronics Engineers,496- 591
830