After the initial set-up of the system, the movement and displacement of the arms leads to the creation of a rotation with the help of a gravitational force that continues to propel the driver.
The movement of the arms to produce power at the scale of the power plant is a necessary condition but not enough. Power plants can be achieved with the help of gravitational force together with the creation of variable mass in the system. So that in the designed system, fluid is used as a variable mass.
According to the figure, this variable mass is connected by all three arms, designed at angles and with the help of pneumatic force reaching the highest point of the fall of the object.
In the rotation moment of the shaft, the weights that contain the upper mass are released which results in the release of kinetic energy in the system. On the other side of the rotation, the weights are hollow so that they can easily reach to free fall position with less energy.
Creating a rotation in the shaft attached to the central axis of the arms, by moving the arms and creating variable mass in the system, leads to torque production. Then the torque is transmitted to the gearbox and the gearbox provides the necessary power for the generator by converting the input torque and rotation and ultimately the generator generates electricity.