Gravitational Structure Systems
Another significant challenge in agriculture is the high reliance on electrical energy. Electricity powers most components in agricultural systems. Our solution to reduce electricity consumption starts with optimizing structural design to leverage gravitational forces and fundamental physics principles.
In a pilot project for an aquaponic system (featuring a 1,500-square-meter greenhouse and five fish tanks, each with a 70-cubic-meter water capacity, producing 3 tons of fish per tank, totaling 350 cubic meters of water and 15 tons of fish), we reduced the number of water circulation pumps from a minimum of eight to just two. Approximately 90% of the water flow throughout both systems operates gravitationally—a result of extensive studies, testing, and accounting for numerous variable factors.
Currently, we are working on designing hybrid systems that combine hydraulics with other scientific disciplines to achieve complete water circulation within the system without relying on electrical energy.
