Abstract
This disclosure defines the mechanical, hardware, and operational specifications for a standalone laboratory apparatus engineered to accumulate, confine, and direct high-density vibrational wave energy within a closed boundary system. The system relies entirely on repeatable, book-level principles of non-linear fluid dynamics, high-frequency acoustic streaming, and radiative pressure fields, operating independently of any non-standard cosmological assumptions.
By utilizing a high-symmetry geometric grid of twenty independent Gallium Nitride (GaN) driven concentric transducer nodes, high-amplitude harmonic oscillations are focused directly into a specialized viscoelastic fluid medium trapped inside a rigid, highly reflective spherical envelope. At perfect phase alignment, the system drives the internal fluid medium to an extreme, non-linear pressure stacking threshold at the absolute center of the cavity. Subsequent software-directed phase offsets break this internal geometric equilibrium, creating an asymmetric wave-propagation vector. This asymmetry transforms the confined fluidic resonance into a raw, directional mechanical pushback (a kinetic faucet) acting directly against the container walls, which is logged in real-time by a flush-mounted sensor grid.
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.
Recommended Citation
Eckes, Christopher L., "Technical Disclosure Specification: An Asymmetric Fluidic Propulsion Cavity for Transverse Kinetic Energy Harvesting and Res-Phase Confinement", Technical Disclosure Commons, ()
https://www.tdcommons.org/dpubs_series/10983