The DLLS: The Dynamic Heart of the GMEG

The DLLS: Enabling Continuous Power

The Dynamic Load Lifting System (DLLS) is the engine of the GMEG, solving the fundamental problem of how to provide continuous, on-demand power from a linear force.

While gravity consistently pulls in a single direction, the DLLS is a sophisticated, motor-driven system designed to manage the GMEG’s energy cycle. Its primary function is to periodically reposition the track, ensuring the gravity enablers are almost always on a downward path, thereby enabling a truly continuous and self-sustaining energy cycle.

Engineered for Dynamic Performance

The DLLS is a sophisticated dual-motor system that operates with exceptional precision to manage the GMEG's energy cycle. To handle the dynamic and varying loads of repositioning the track, the system is engineered to utilize two distinct torque curves.

This advanced level of control is what ensures the track's movement is both highly efficient and meticulously timed, providing the stable foundation required for continuous, reliable energy generation.

A Strategic Approach to Energy Balance

While the DLLS performs the necessary negative work to reposition the track, it is engineered to do so with exceptional efficiency. This process is strategically managed to ensure the entire GMEG system maintains a net positive output.

A central flywheel smooths power consumption and mitigates sudden power drains by absorbing and releasing energy as needed. The periodic nature of the DLLS’s operation allows the flywheel to be charged over a prolonged period, ensuring a seamless energy balance that is vital for the GMEG's continuous and uninterrupted operation.