Robust Modular Degeneracy: Difference between revisions
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The OSE approach involves a nominal 100kW (village scale) solar power system, feeding industrial processes such as [[Solar Steel]], [[Solar Concrete]], a quarry, 3D printing of thermoplastic construction materials, industrial hot metal processing (induction furnace) and precision machining. | The OSE approach involves a nominal 100kW (village scale) solar power system, feeding industrial processes such as [[Solar Steel]], [[Solar Concrete]], a quarry, 3D printing of thermoplastic construction materials, industrial hot metal processing (induction furnace) and precision machining. | ||
The focus of Degenerate Modular Scalability is [[Extensive Scalability]] - zero marginal cost development of industrial, power, precision, material production, and other modules. | |||
Revision as of 21:44, 25 December 2025
About
A design approach for Zero Marginal Cost Economic Development focusing on robust, Degenerate modules in the context of Module-Based Design - enabling lego-like industrial productivity on a small scale.
The OSE approach involves a nominal 100kW (village scale) solar power system, feeding industrial processes such as Solar Steel, Solar Concrete, a quarry, 3D printing of thermoplastic construction materials, industrial hot metal processing (induction furnace) and precision machining.
The focus of Degenerate Modular Scalability is Extensive Scalability - zero marginal cost development of industrial, power, precision, material production, and other modules.