Abstract

This disclosure describes the GCI-274 Neuro-Clearance Engine (v3.1), a non-medical, open-hardware research architecture designed for the study of complex fluid dynamics in cranial-mimetic phantom models. The system integrates 21 independent Gemini Caldwell Inventions (GCI) into a unified Vortex-Acoustic Transport Stack to explore the mobilization and redistribution of protein-analog aggregates in non-Newtonian fluids (PVA-Cryogel).

The architecture utilizes a multi-layer physical approach:

  1. Kinetic Lift Layer: Employs the GCI #102 Vortex Spine featuring GCI #18 J-Groove Rifling to induce passive vortex shedding and helical upward flow without mechanical impellers.

  2. Acoustophoretic Layer: Utilizes a 12-element GCI #75 Phased Array mapped to a GCI #23 Fermat-Spiral Substrate ($137.5^\circ$ Golden Angle) to generate non-repeating acoustic streaming fields, preventing standing-wave "hotspots."

  3. Flow-Logic Layer: Integrates the GCI #118 Laminar-Helical Manifold and GCI #272 Transition Logic to manage the transition from laminar to turbulent flow regimes, simulating aggregate behavior in micro-channels (GCI #121).

  4. Autonomous Safety Layer: Employs GCI #44 APR Logic for real-time phase-lock monitoring, protected by a hardware-level GCI #333 Shutdown Lattice and a GCI #275 Guardian-Grip physical interlock.

This platform serves as a "Research Scaffold" for the scientific community to study glymphatic-mimetic clearance mechanics. By combining 40 Hz resonance, NIR-induced thermo-elastic expansion, and vortex-driven lift, GCI-274 provides a transparent, open-source alternative to proprietary clinical devices. This publication establishes Defensive Prior Art for the integration of vortex-geometry and acoustic-spiral mapping in mass-transport systems.

Creative Commons License

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.

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