ANALISA SISTEM PEMBANGKIT THERMOELEKTRIK DENGAN RANGKAIAN PARAREL PADA PEMANFAATAN PANAS BUANG MESIN TOYOTA COROLLA EFI
Abstract: In the coming year
is estimated to be growing energy needs increased by about 40% of current
needs, as we know
from 100% fuel used by
only about 30% that is used
to drive the car. part of the
energy wasted in the form of the radiator and the gas is wasted purpose of This analysis
is to determine how to
utilize waste heat energy in
toyota corolla engineefficiently into
energy useful to the
system and to determine the effect
thermolektrik parallel circuit thermoelektrik components
generated strong currents
and voltages generated electricity in accordance with the
type of materials used. In writing this essay
the author collected data
- data with
methods of literature, interviews
and observation. There results can be conclude (1) for exhausted heat energy in
Corrola EFI Toyota engines are asw follows. Arranging thermoelektrik with
parallel circuit which is mounted on the exhaust side, turn the machine with
1000 rpm engine speed, gradually up to 300 0 rpm. Start measuring the
temperature of top and bottom of these thermoelektrik, and also a strong measure
of current, voltage to be produced thermoelektrik. There we received the
results from the engine exhaust heat is on with a series of parallel
thermoelektrik. (2) there research on the
influence of these parallel
series of studies
thermoelektrik components that
were assembled in parallel
to produce strong
currents and tension resulting
from the waste exhaust heat
is wasted. at 1000
rpm to produce strong
currents of 0.5
degrees Celsius ampere and
voltage of 0.9
volt temperature -
average above 45
degrees Celsius, the temperature -
average 95 degrees
Celsius below 1500
rpm to produce strong
currents of 0.9 ampere and voltage of 1 volt and
temperature - average 59 degrees Celsius. temperature -
average below 111
degrees Celsius. 2000
rpm producing a strong
current of 1 ampere
and voltage of
1.2 volts and
temperatures average 61
degrees Celsius, the temperature -
average below 119
degrees Celsius, 2500
rpm producing a strong
current of 1.5 amperes
and the voltage at 1, 5
volts and temperature
- average 56
degrees Celsius, the temperature – average below 123 degree
Celsius. 3000 rpm to produce strong currents of 1.5 amperes and the
voltage of 2
volts and temperature
- average 61
degrees Celsius, the temperature -
average below 127
degrees Celsius. if
understood parallel pengaruhrangkaian is still very small to
generate strong currents and voltages. the stronger the currents used, the greater
the stronger the smaller the current and voltage and vice versa.
Penulis: Agus Wibowo, Zulfah,
Prawiro Anggianto
Kode Jurnal: jptmesindd110237