Nuclear Fusion Energy

AI Real-Time Plasma Control Standard

εΌ˜η›ŠδΊΊι–“

Unifying fragmented fusion research to create a global standard for commercial fusion energy. Enabling infinite clean energy for all humanity.

Triple Product: n Γ— T Γ— Ο„  |  Q = Pout / Pin β‰₯ 10
πŸ”¬ Fusion Simulator πŸ“‹ Specification πŸ“š Ebook
100MΒ°C
Plasma Temperature
48s
KSTAR Record (2024)
35
ITER Member Countries
Qβ‰₯10
Commercialization Target

WIA-FUSION Standard Features

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Plasma State Schema

Standardized JSON format for plasma parameters including temperature, density, confinement time, and triple product calculations.

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AI Control Protocol

Real-time plasma instability prediction, automatic heating power adjustment, and disruption avoidance maneuvers.

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Energy Balance API

APIs for Q-factor calculation, fusion power output, plant efficiency, and tritium breeding ratio monitoring.

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Safety Protocols

Emergency shutdown procedures, tritium management, radiation monitoring, and disruption mitigation systems.

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Grid Integration

Standards for connecting fusion power plants to electrical grids, load balancing, and power quality management.

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International Data Sharing

Interoperable data formats for ITER member nations and private fusion startups worldwide.

Supported Reactor Types

πŸ”˜ Tokamak Active

ITER, KSTAR, JET, EAST - Magnetic confinement with toroidal plasma

πŸ”˜ Stellarator Active

Wendelstein 7-X - Twisted magnetic field configuration

πŸ”˜ Laser Fusion Active

NIF - Inertial confinement with high-power lasers

πŸ”˜ Compact Fusion R&D

Private startups: Commonwealth, TAE, Helion

Standard Specification

Property Value
Standard ID WIA-FUSION v1.0
Status Official
Category Energy / Nuclear Fusion
Target Q Factor Q β‰₯ 10 (Commercial), Q β‰₯ 1 (Scientific Breakeven)
Plasma Temperature β‰₯ 100 million Β°C (10 keV)
Philosophy εΌ˜η›ŠδΊΊι–“ (Benefit All Humanity)