SECE® Energy, Affordable and Environmentally Clean Energy Generation Technology Utilizing Air, Sand, and Water for Climate Change Solutions

Climate change remains one of the most urgent global challenges, and rapid reductions in carbon emissions are essential to achieving effective mitigation. Energy systems sit at the core of economic and societal development, yet many existing clean‑energy technologies continue to face constraints in sustainability, resource availability, affordability, and operational stability. These limitations hinder progress toward a just and accelerated transition to low‑carbon energy solutions. This study introduces a novel, combustion‑free mechanical energy‑generation pathway based on the controlled interaction of three universally abundant natural elements air, sand, and water (ASW). Revisiting these fundamental materials as non‑combustible, carbon‑free working media, the research investigates their capacity to support continuous mechanical energy production without reliance on chemical reactions, atmospheric conditions, or weather‑dependent intermittency. Using the SECE® ENERGY Technology, developed under the SOYOS PROGRAM by IRIDCCS TECHNOLOGIES, we experimentally evaluate a new class of ASW‑driven internal mechanical exchange systems. The SOYOS DROP PISTON (SDP) apparatus served as the primary test platform across 43 independent studies, conducted in multiple seasons and geographic locations. Results consistently demonstrate that the SDP system generates stable, repeatable, and affordable mechanical energy using only ASW inputs, confirming the feasibility of this approach as a carbon‑free, renewable energy mechanism. The findings establish ASW-based mechanical systems as a scientifically grounded alternative to combustion‑dependent technologies and a scalable framework for future clean-energy infrastructures. By leveraging globally accessible natural resources, this work provides a promising pathway for sustainable power generation capable of supporting climate‑change mitigation, energy equity, and long‑term environmental resilience. The schematic illustrates the SECE® ENERGY system using AIR, SAND, and WATER as natural inputs driving a non‑combustive mechanical cycle. It highlights the ASW pathway, piston‑based conversion chamber, and resulting clean‑energy output, emphasizing renewable, affordable performance validated across diverse locations and seasonal conditions.