Deployment Plan: The Aurora-GridSphere Hybrid Energy Network
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We're looking to the future of Go Pods. In the most extreme locations our infrastructure designed as partnered by #timemachine technology, can ensure stability of our lifestyle infrastructure.
System Goal: To provide resilient, long-duration, high-capacity power to a regional community or industrial park using optimized intermittent nuclear generation coupled with decentralized smart lithium storage.
Architecture: Hub-and-Spoke Model
Hub (Central Generation): One Oklo-class Aurora Microreactor (Nuclear Fission).
Spokes (Distributed Storage): Ten (10) Large-Scale GridSphere™ Battery Microgrid Stations, utilizing smart Battle Born LiFePO4 storage.
1. System Specifications (Conceptual)
Component | Function | Capacity/Quantity | Notes |
|---|---|---|---|
Central Hub (Aurora) | Baseload Power Generation | ~10 MWe (Net) | Continuous, zero-carbon power source. Designed to run at steady-state. |
GridSphere™ Spokes | Decentralized Energy Storage | 10 Units | Located strategically around the service area for resilience. |
Total Storage Capacity | Long-Duration Buffer | ~3,600 MWh | Capacity required to power the 10 MWe network for 15 days without reactor input. |
Storage per Spoke | Local Energy Dispatch | ~360 MWh | Each spoke must hold adequate capacity for localized resilience. |
2. Operational Strategy: The 15/15 Cycle
The core innovation of this system is the operational cycle, designed to maximize reactor efficiency and battery longevity, turning the constant nature of nuclear power into an optimized charging mechanism.
Phase A: Charging Cycle (15 Days)
Parameter | Action | Goal |
|---|---|---|
Reactor Status | 100% Full Power (10 MWe) | Maximize energy output and rapidly recharge the battery network. |
Battery Status | Full Charge Mode | The entire 10-Spoke GridSphere™ network absorbs all excess energy generated by the Hub. |
Net Load Serving | Reactor serves 100% of instantaneous community load (e.g., 5 MWe). | The remaining 5 MWe output is funneled directly to the GridSphere™ network for storage. |
Duration | Approximately 15 days | Based on the 3,600 MWh total storage requirement, 15 days of charging at 5 MWe surplus is required. |
Phase B: Discharging Cycle (15 Days)
Parameter | Action | Goal |
|---|---|---|
Reactor Status | Shutdown or Low Maintenance Mode | Allows the reactor to be secured, cooled, and maintained for a predictable period. |
Battery Status | Discharge Mode | The GridSphere™ network (using Battle Born's smart BMS) dispatches stored energy to serve the full 10 MWe community load. |
Load Management | Smart AI Control | GridSphere™ units handle all peak shaving, grid stability, and localized power needs using the stored 3,600 MWh. |
Duration | Approximately 15 days | The stored energy is precisely managed to last until the reactor restarts the next cycle. |
3. Technology Integration (AI Management)
Smart Storage (GridSphere™): Each of the 10 spokes will leverage the Battle Born Batteries' integrated Dragonfly IntelLigence® technology. This smart Battery Management System (BMS) ensures optimal charge/discharge curves, protects cell health, and precisely communicates state-of-charge (SOC) data to the central network controller.
Central Energy Management System (EMS): A singular AI-driven platform manages the entire 15/15 cycle. The EMS communicates with the Aurora Hub to schedule shutdown/restart and with all 10 GridSphere™ Spokes to coordinate charging, monitor health, and manage power dispatch to the community load.
Security & Resiliency: The decentralized nature ensures that if the Hub is offline (Phase B or emergency), the spokes guarantee continuous power. Conversely, if a single Spoke fails, the Hub and the remaining 9 Spokes can compensate.
4. Implementation Phases
Phase | Description | Key Deliverables |
|---|---|---|
I: Site Selection & Licensing | Secure optimal location for the Hub and the 10 Spoke sites. Complete nuclear and electrical licensing. | Finalized site permits; NRC/DOE approvals; land secured. |
II: Component Fabrication | Factory-build the Aurora Microreactor module and concurrently manufacture all 10 modular GridSphere™ units. | Delivery of Hub module and 10 fully built Spoke containers. |
III: Infrastructure & Installation | Prepare the Hub site for reactor placement. Install underground and overhead transmission lines connecting the Hub to the 10 Spoke sites and the community grid. | Hub foundation poured; GridSphere™ units deployed; full grid interconnection established. |
IV: Testing & Commissioning | Initial activation of the Aurora Microreactor. Conduct system-wide testing of the 15/15 cycle, ensuring the GridSphere™ BMS handles charge/discharge perfectly. | Successful execution of the full 30- |
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