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Language Abstract 1

Abstract 1

The Hydroelectric Vortex Turbine utilizes the behavior of water to produce
electricity. Powered by the kinetic energy of flowing water as it moves downwards, the
Hydroelectric Vortex Turbine make use of turbine and generator to produce electricity
by converting kinetic energy.
The primary aims of this research are to produce electricity from renewable
sources, determine the production of voltage and current caused by different flow rates,
as well as to figure out the amount of flow rate required to light up a 3V LED.
This research team collected the data of the amount of voltage and current
produced by the hydroelectric vortex turbine in six different flow rates. Descriptive
statistics and linear regression are used to obtain the relationship between the flow
rate and the two outputs, voltage and current, respectively.
In accordance with the findings of this study, The Hydroelectric Vortex Turbine
is able to produce electricity by utilizing water through the whirling of a vortex turbine.
Moreover, the linear regression shows that the relationship between flow rate, voltage,
and current is directly proportional. Voltage will rise by 0.1355V when the flow rate is
kept constant. For every increase of 1 ml/s, with the condition of the other variable
being constant, voltage will rise by 0.0017V. On the other hand, the current will
increase by 12.49A when the flow rate remains unchanged. For every increase of 1
ml/s, with the condition of the other variable being constant, current will rise by
0.0411A. In addition, the flow rate of approximately 1685 ml/s will light up a 3V LED

Language Abstract 2

Abstract 2

The Hydroelectric Vortex Turbine utilizes the behavior of water to produce
electricity. Powered by the kinetic energy of flowing water as it moves downwards, the
Hydroelectric Vortex Turbine make use of turbine and generator to produce electricity
by converting kinetic energy.
The primary aims of this research are to produce electricity from renewable
sources, determine the production of voltage and current caused by different flow rates,
as well as to figure out the amount of flow rate required to light up a 3V LED.
This research team collected the data of the amount of voltage and current
produced by the hydroelectric vortex turbine in six different flow rates. Descriptive
statistics and linear regression are used to obtain the relationship between the flow
rate and the two outputs, voltage and current, respectively.
In accordance with the findings of this study, The Hydroelectric Vortex Turbine
is able to produce electricity by utilizing water through the whirling of a vortex turbine.
Moreover, the linear regression shows that the relationship between flow rate, voltage,
and current is directly proportional. Voltage will rise by 0.1355V when the flow rate is
kept constant. For every increase of 1 ml/s, with the condition of the other variable
being constant, voltage will rise by 0.0017V. On the other hand, the current will
increase by 12.49A when the flow rate remains unchanged. For every increase of 1
ml/s, with the condition of the other variable being constant, current will rise by
0.0411A. In addition, the flow rate of approximately 1685 ml/s will light up a 3V LED

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