Sovereign Macro-Nautilus Fleet Ops: High-g Mass-Hydration of Phaeton
David Michael Seagal
This technical presentation outlines the macro-engineering logistics required to relocate Earth’s entire liquid hydrosphere (1.386 billion \(\text{km}^{3}\)) to the planet Phaeton using a dedicated fleet of six 60-kilometre-wide Sovereign Macro-Nautilus Class vessels. The paper rejects solid-state ice transport due to a 9% volumetric expansion tax and structural crystallization stress on the 5 km carbon-chitin hulls. By utilizing CERN-developed Higgs boson field excitation via DMD wobble-projectors, the vessels achieve asymptotic rest-mass reduction to zero. This mass-decoupling facilitates sub-light 500g structural sprints and immediate transitions into Aether Supercavitation FTL. The report demonstrates that a 6-ship fleet operating on a 24-hour turnaround matrix completes the planetary hydration initiative in 9.7 to 46.5 years, safely fulfilling the century-scale mandate. [1] Indexing Keywords Core Engineering & Logistics Sovereign Macro-Nautilus Class Planetary Hydration Logistics Macro-Engineering Fleet Dynamics Liquid Hydrosphere Relocation Carbon-Chitin Bio-Engineered Hull Hyper-Peristaltic Siphoning Advanced Theoretical Physics Higgs Field Modulation Asymptotic Mass Decoupling DMD Wobble-Projectors Aether Supercavitation FTL High-g Structural Sprints Symmetry Breaking Propulsion Automation & Systems Control Orac Triadic Network Gallium-Indium Microfluidics Automated Hull Homeostasis Phaeton Terraforming Mechanics CERN Theoretical Physics Directorate
View on OpenAlex ↗
SaaS Metrics