Water-Fuel Plasmoid Propulsion and Ternary Reaction Control
Water-fuel plasmoid propulsion with atmospheric moisture harvesting and ion-jet navigation.
Explore the Vision
Discover this technology through five complementary perspectives — from technical architecture to partnership outcomes. Each layer reveals a different aspect of how this innovation creates value.
Water-fuel plasmoid propulsion with atmospheric moisture harvesting and ion-jet navigation.
What It IS
Technical VisionThe architectural essence — what makes this technology work
A propulsion system harvesting water from ambient atmosphere, dissociating it through plasmoid reaction in a quaternionic electromagnetic resonator, and directing thrust through negatively charged ion jets. Navigation through ionic deflection. Propulsion from water and geometry.
Abstract
Integration of ternary neural processing for real-time control of water-fuel plasmoid reactions, managing energy release and directional thrust.
Visual Essence
A propulsion system harvesting water from ambient atmosphere, dissociating it through plasmoid reaction in a quaternionic electromagnetic resonator, and directing thrust through negatively charged ion jets. Navigation through ionic deflection. Propulsion from water and geometry.
Technology Domains
Related Patents
From the frontier-energy visual family
Industrial HVDC Transmission with Ternary Control
High-voltage ternary switching for electrogravitic electrode arrays.
Electrogravitic Propulsion Control via Ternary Neural Networks
Electrogravitic propulsion controlled by ternary neural processing — real-time gravitational gradient management.
Electrogravitic Propulsion Control via Ternary Neural Networks
Electrogravitic propulsion controlled by ternary neural processing — real-time gravitational gradient management.