Abyssal TrueFlow
Mythic invocation
In the echo-rift of collapsing terrains, where plastics drift like false glyphs and hydrocarbons stain the abyss, a new sovereign archetype emerges. Not a vessel of war, nor a machine of extraction, but a restorer—an unmanned emissary of clarity, designed to transmute contamination into resonance.
Abyssal TrueFlow is mythic infrastructure: composites, catalysts, and telemetry braided into a diagnostic emissary of clarity.
Structural codex
Composite trimaran, modular internal racks, active ballast and trim for neutral buoyancy under variable loads.
Quiet electric thrusters, pump-jet option for debris resilience, gyro-stabilized for precision near sensitive habitats.
Hybrid fuel-cell + battery core; renewable augmentation via towable solar/wind kite and wave-energy buoy when on station.
Micro-ROV emissaries for hotspot mapping, micro-sampling, and precision debris collection.
Treatment rituals
Coarse self-cleaning screens followed by hydrocyclones for density-based separation of silt and sand. Debris-tolerant pumps maintain cavitation-safe flow.
Oleophilic sorbent beds capture oils and fuels; functionalized resins sequester heavy metals (Cu, Pb, Hg). Cartridges hot-swappable at sea.
Crossflow ultrafiltration strips microplastics to ~0.1–1 µm with anti-fouling flow geometry; concentrate routed to secure bins for surface retrieval.
Immobilized PETase/MPH variants in controlled 25–40°C reactors; containment safeguards prevent biological release, effluent UV-killed.
UV + hydrogen peroxide or electrochemical oxidation break residual organics into benign constituents with low thermal footprint.
Real-time turbidity, TOC/DOC, hydrocarbon fluorescence, and conductivity gates ensure only sovereign-clean water returns to the abyss.
Intelligence & telepresence
Behavior-based autonomy for mission routing, intake optimization, and hazard avoidance; predictive maintenance via vibration and thermal signatures.
Operator-in-the-loop telepresence for complex manipulations; bandwidth-adaptive encoding with late binding to sensor fusion overlays.
360° camera ring, DVL, multibeam sonar, forward-looking sonar, and underwater LiDAR in clear-water regimes for terrain mapping.
Every intake and discharge is recorded and surfaced to an open dashboard—transparent governance by design.
Sovereign governance
Pilot build
10–20 ft demonstrator validating core intake, treatment, autonomy, and manipulator systems.
[Hull & Frame] └─ Composite shell (10–20 ft) └─ Modular internal racks [Power System] └─ Lithium battery bank (10–20 kWh) └─ PEM fuel cell (1–3 kW) └─ Optional surface solar tether [Intake & Flow] └─ Coarse screen + debris-tolerant pump └─ Flow sensors + bypass valve [Treatment A – Microplastics] └─ Ultrafiltration membrane (0.1–1 µm) └─ Enzymatic reactor (PETase) └─ UV + H₂O₂ oxidation chamber [Treatment B – Hydrocarbons] └─ Sorbent cartridge (oleophilic media) └─ Catalytic polishing (optional) [Discharge & Monitoring] └─ Sensor gate (turbidity, TOC, conductivity) └─ Diffuser nozzle array [Autonomy & Perception] └─ AI core (edge compute) └─ 360° camera ring └─ Sonar + DVL └─ VR link (telepresence) [Manipulator] └─ Soft robotic grabber, 2-axis actuator [Comms & Telemetry] └─ Acoustic modem └─ Surface sat uplink └─ Open dashboard feed
- Hull & Frame: Composite shell, modular racks
- Power: 48V LFP battery, 1–3 kW PEM fuel cell
- Intake: Peristaltic pump, self-cleaning screen
- Treatment A: UF membranes, PETase reactor, UV chamber
- Treatment B: Oleophilic sorbent cartridge
- Sensors: Turbidity, TOC/DOC, conductivity
- Autonomy: Edge compute, 360° camera, sonar/DVL
- Manipulator: Soft grabber
- Comms: Acoustic + sat uplink
Certified & Founded by
Dr. Melvin Sewell, M.Sc., Ph.D.
Academic Dean & Diagnostic Architect
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