SCG-HMH 4×Module Rotor RPM Explainers & LLM-Friendly Python Code Library (Extension to Consolidated Concepts)
Contributors
Other (2):
Description
- 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
- 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
- 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
Watch the full 4×Module design walkthrough and live code demonstration:
Link to YouTube video
contactless 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 Integration
https://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 aging
https://zenodo.org/records/18625310 - The SCG-HMH + Spaceship TITAN integration: A Regenerative, Self-Sustaining Starship Powered by Recycled Entropy and Stellar Heat
https://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)
CC-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.
Files
11. Complete LLM-Friendly Python Code Library (Refined Final).pdf
Files
(5.4 MB)
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Additional details
Additional titles
- Alternative title
- Net Zero Generator
- Alternative title
- Hybrid Cold to Hot Heat Engine/Generator
- Alternative title
- Unlocking Electrical Potential at the atom scale cheaply
Identifiers
- Other
- 10.5281/zenodo.18363156