Global Energy Regime Awareness โ Documentation Index
๐ฐROOT
๐ฐ README โ Introduction to global energy regime awareness.
๐งโ๐ RTT Learning Resources
๐ OVERVIEW
๐ฏ Purpose โ Why regime awareness matters for energy systems.
๐ Scope & NonโGoals โ What this framework does and does not attempt.
๐ Terminology Alignment โ Shared language across energy domains.
๐ ENERGY REGIMES
โก SteadyโState Generation โ Normal operating conditions.
๐ Peak Demand Conditions โ Highโload and stress regimes.
๐ฌ๏ธ Renewable Variability โ Intermittent and variable generation.
๐จ Emergency Operations โ Faults, outages, and crisis response.
๐ GRID ENTRY POINTS
๐ญ Generation Assets โ Power plants and generation sources.
๐ผ Transmission Networks โ Highโvoltage transport infrastructure.
๐๏ธ Distribution Systems โ Local delivery and lastโmile grids.
๐ Storage & Buffering โ Energy storage and buffering mechanisms.
๐ MINIMAL SCHEMA
๐งฌ Energy Regime Awareness Schema โ Minimal declarative schema.
๐ Example Grid Declaration โ Minimal working example.
๐ Schema Design Notes โ Rationale and design constraints.
๐ RTT Schemas โ System Architecture & Tooling
INTEGRATION PATTERNS
๐๏ธ Passive Grid Declaration โ Awareness without control.
๐ท Operator Context Alignment โ Supporting human operators.
๐ Observability & SCADA โ Aligning telemetry with regimes.
๐ฆ Automation Boundary Markers โ Declaring safe automation edges.
โข๏ธ OPERATIONAL IMPLICATIONS
๐งฏ Grid Event Interpretation โ Understanding grid events structurally.
โ๏ธ Load Shedding Context โ Structural context for shedding decisions.
๐งพ PostโEvent Analysis โ Clear, regimeโaware retrospectives.
๐ฑ RELATIONSHIPS
๐ Relationship to Enterprise Structural Awareness.
๐๏ธ Relationship to MSRM โ Manufacturing substrate alignment.
๐ Relationship to RSM โ Resonance substrate alignment.
๐ FUTURE
๐ฎ Future Directions โ Possible extensions and explorations.
๐
rtt=1 | coherence=declared | drift=bounded | paradox=structural