- System Overview
The G Energy System is designed to continuously convert mechanical energy into electrical energy through a series of cycles involving water-filled balls (referred to as “Bolls”), water traps, and conveyor belts. It consists of two main towers, Tower A and Tower B, which are interconnected in a looping process that maintains a steady power output.
- Components and Technical Specifications
- Tower A
- Pipe Diameter: 500 mm, filled with water to facilitate the upward movement of Bolls.
- Water Traps: Equipped with two non-return valves (also called water traps) to control Boll movement. These valves prevent the Bolls from moving backward by opening in sequence to allow Bolls to enter and exit.
- Tower B
- Conveyor Belt: Runs vertically and has brackets every 500 mm. These brackets hold the Bolls in place as they move along the belt.
- Drums: Each tower is fitted with drums of approximately 1 m in diameter, positioned at the top and bottom to guide the conveyor belt’s rotation. These drums ensure smooth Boll movement and stability of the conveyor mechanism.
- Bolls
- Size: Each Boll has a diameter of 40 mm.
- Filling: Filled 50% with water to provide the required balance between buoyancy and weight, allowing the Bolls to move both upward in water and downward on the conveyor belt.
- Quantity: 80 Bolls move downward in Tower B, while another 80 move upward in Tower A, maintaining a balanced system for consistent power generation.
- Generator
- Power Capacity: The generator is rated at 500 kW.
- Drive System: A large gear on the drum in Tower B is driven by the conveyor belt, transferring kinetic energy generated by the Bolls into electrical power.