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Industrial‑Scale Water From Air • Ocean‑Based Survival Protein • Proactive Microplastic Mitigation • Zero‑Fuel Cargo Shipping S.K.O.O.G. Architecture – Skoog Buoy • Skoog Tablets • The Skoog Flocculant • S.K.O.O.G. Harvester Skoog Open Marine Technology (SOMT) The S.K.O.O.G. architecture is an open‑source humanitarian technology suite designed to provide infrastructure‑independent water, survival protein, environmental protection, and maritime transport using only natural oceanic and solar gradients. The architecture integrates four systems: Skoog Buoy – industrial‑scale mechanical AWG (water from air) Skoog Tablets – decentralized survival‑grade protein production The Skoog Flocculant – proactive microplastic mitigation (SOMPF) S.K.O.O.G. Harvester – zero‑fuel wave‑powered cargo propulsion All systems are electricity‑free, fuel‑free, and designed for low‑infrastructure environments. Freshwater Security – Skoog Buoy Skoog Buoy is a mechanical Atmospheric Water Generator (AWG) concept capable of producing large volumes of freshwater (up to 500.000 l/day) using: deep‑ocean cooling solar‑driven convection capillary condensation passive hydrodynamics No electricity. No filters. No chemicals. No moving parts. Full technical documentation (open source): https://doi.org/10.5281/zenodo.18483339 Survival Protein Production – Skoog Tablets Skoog Tablets (SCLS) is an open‑source, electricity‑free system designed to produce survival‑grade protein in approximately 72 hours using seawater and sunlight. The system uses a three‑tablet sequence with geometric coding: Day 1 – START‑SEED (round) Day 2 – GROWTH‑SEED (square) Day 3 – FINISH‑SEED (triangle) Full technical documentation (open source): https://zenodo.org/records/19650438 Proactive Microplastic Mitigation – The Skoog Flocculant The Skoog Flocculant (SOMPF) is a material-based solution designed to solve the microplastic crisis at its root. By treating plastics during manufacturing, the material remains safe and passive during its primary use, but is "programmed" to react if it ever reaches the marine environment.
The Ionic Trigger: Natural salt ions act as a key that triggers fragments to aggregate with each other and with organic marine snow.
The Biological Barrier: Fragments aggregate to sizes larger than 50 µm ("pebbles instead of dust"), making them physically too large to be absorbed by living cells or pass through membranes.
Stability in Infrastructure: The system remains inactive in freshwater systems, ensuring no interference with pipes, treatment plants, or household appliances.
Source-Point Protection: Captures fragments at the moment of degradation when their local concentration is at its peak.
Full technical documentation (open source): https://doi.org/10.5281/zenodo.20005019 Zero‑Fuel Maritime Transport – S.K.O.O.G. Harvester The S.K.O.O.G. Harvester is a wave‑powered propulsion system enabling: long‑distance transport zero emissions no fuel dependency minimal maintenance It uses oscillating wave energy to generate continuous forward thrust, enabling sustainable maritime Logistics. Full technical documentation (open source): https://zenodo.org/records/17552757 Open‑Source Mission All S.K.O.O.G. systems are released under CC‑BY 4.0 and published with DOI for permanent global access. The goal is to provide scalable, infrastructure‑independent solutions for water, survival protein, environment, and transport — freely available to all.

Official website: https://www.skoogmarine.com Innovating for a hunger‑free and thirst‑free world. Water from air. Ocean as food. Proactive plastic management. No electricity. No brine. No Fuel. No Emission. Always open source.

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