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| Formato: | Recurso digital |
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Zenodo
2026
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| Acceso en línea: | https://doi.org/10.5281/zenodo.18795239 |
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- <p> </p> <p dir="ltr"><strong>Luna Negentropy</strong> is an Open Science framework designed for autonomous lunar development through high-efficiency In-Situ Resource Utilization (ISRU). It shifts the paradigm from Earth-dependent logistics to a decentralized metabolic architecture.</p> <p dir="ltr"><strong>Core Technical Components:</strong></p> <ul> <li><strong>Electromagnetic Granular Pumping (EMGP):</strong> Utilizes Traveling Wave Dielectrophoresis (TWD) for contact-free regolith transport, eliminating mechanical wear and seizure caused by abrasive lunar dust (triboelectric charging).</li> <li><strong>npFe^0</strong><strong> Coupled Sintering:</strong> Leverages nanophase iron (npFe^0) present in the regolith to lower sintering energy requirements by 30%, enabling the rapid construction of integrated habitats (walls, floors, and ceilings) that function as solid-state batteries and thermal storage.</li> <li><strong>Volatile Extraction & Yields:</strong> A cryo-magnetic trap system captures H_2, H_2O, and He^3 through thermal/magnetic gradients. Calculated yields per 1m^3 of processed regolith: <strong>22.8 tons of </strong><strong>O_2</strong><strong>, 11.5 tons of Fe, and 2.2g of </strong><strong>He^3</strong>.</li> <li><strong>Active Shielding:</strong> Implementation of an artificial magnetosphere utilizing local magnetite and field logic to deflect solar radiation, replacing heavy passive shielding with active electromagnetic defense.</li> </ul> <p dir="ltr"><strong>Objective:</strong> To achieve a negentropic state in lunar colonization where resource organization exceeds systemic entropy, rendering traditional "off-the-shelf" logistics obsolete.</p> <p> </p>