This Zenodo release provides the complete first-principles documentation and executable Python code library for the SCG-HMH 4×Module superconducting generator architecture. Key contents Full symbolic derivations (SymPy) of YBCO flux-pinning models (Larkin–Ovchinnikov, collective creep, vortex-glass) – Appendix B ready Exact radial-equilibrium hoop-stress derivation for the Ti-Be/CFRP contactless rotor (including Maxwell-stress magnetic relief) Extended RPM envelope simulator that reproduces Table 1 and generates the new 4×Module parametric results All scripts are LLM-friendly, heavily commented, and produce perfect LaTeX + Markdown output for direct paper insertion New in this 4×Module extension Four independent modules, each containing its own 0.2 m × 0.4 m Ti-Be/CFRP rotor and dedicated ReBCO stator Modules remain thermally and mechanically independent Shared infrastructure is limited to a common LN₂ supply and a daisy-chained N₂ expansion channel before recirculation (the devil is in the details) Distributed volumetric Lorentz torque per module with zero mechanical stress risers Confirmed 120 000 rpm continuous per module (480 000 rpm system-equivalent) with burst margins > 206 000 rpm per rotor Updated safety-factor envelopes and TITAN (2.7 K) scaling hooks Included assets High-resolution design render of the complete 4×Module architecture (featured image) Full Python code library (YBCO_Pinning_Advanced_Models.py, SCG-HMH_Rotor_Stress_Derivation.py, SCG-HMH_Rotor_RPM_Simulation_Extended.py + 4×Module extensions) Updated Rotor RPM Explainers PDF Companion YouTube videoWatch the full 4×Module design walkthrough and live code demonstration:Link to YouTube video All material is derived from first principles, numerically validated, and deliberately engineered for immediate community replication and Phase-1 bench-scale prototyping, Without having acess to formal peer review or the finances or trust in the patent industry I have chosen to defensivley open source all of this technology in hope it may help humanity. Every equation, table, and RPM value can be reproduced in a single script run. Keywordscontactless rotor, flux-pinned bearings, YBCO pinning, CFRP hoop stress, magnetic relief, modular superconducting generator, high-speed rotor dynamics, collective creep, open-source rotor design, distributed Lorentz torque, daisy-chained LN₂ recirculation. Primary Zenodo Record: SCG-HMH (Consolidated concepts) What I think the future should look like. Supporting Earlier Iterations:https://zenodo.org/records/18665811 - SCG-HMH: Regenerative Multiphysics Framework for High-Density Energy Harvesting via Cryogenic Phase-Change and HTS-MHD Integrationhttps://zenodo.org/records/18925333 - The SCG-HMH Giga factory Concept https://zenodo.org/records/19079171 - The SCG-HMH (Master Derivatives) https://zenodo.org/records/18644753 - Proactive Healthcare - Fighting the effects of aginghttps://zenodo.org/records/18625310 - The SCG-HMH + Spaceship TITAN integration: A Regenerative, Self-Sustaining Starship Powered by Recycled Entropy and Stellar Heathttps://zenodo.org/records/18992650 - SCG-HMH Final Instalment (TITAN Starship Temporal implications)https://zenodo.org/records/18916931 - SCG-HMH (Consolidated concepts) What I think the future should look like https://zenodo.org/records/19102418 - Displacement-Pressure Modified Gravity (DPMG) LicenseCC-BY 4.0 – fully open for replication, modification, and deploymentThis release closes the loop between theory and experiment for the 4×Module SCG-HMH system and serves as the official technical companion to the May 2026 YouTube video and the Extension to SCG-HMH Consolidated Concepts paper. I am a normal guy an a mission for good, if you want to know why I'm doing this or how I even knew it was possible, please read my book > https://www.amazon.co.uk/dp/B0GSCKKYDT