Core Technology
Four Core Foundational Technologies
The Core of Unrivaled Competitiveness
Beyond the Technical Limits.
Tech 01
AI-Powered Autonomous Sorting Process Our AI-driven system leverages electromagnetic properties to ensure fast, precise sorting of mixed radioactive waste, optimizing overall operational efficiency
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AI Vision Deep Learning
Real-time analysis of waste via multi-optical sensors for instant material identification, including ferrous and nonferrous metal.
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Eddy Current Separation
Leverages the repulsive force of high-speed rotating magnetic fields to perfectly isolate non-ferrous metal fragments as small as 1.5mm.
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Zero Manual Intervention
Automated sorting on the conveyor eliminates human involvement, blocking potential radiation exposure from the source.
Tech 02
Precision Contamination Inspection System
Multi-Array Detector System
- Eliminating detection blind spots by combining high-capacity plastic scintillators with high-resolution
- NaI(Tl) array detectors Accurately identifies key contaminants like Co-60 and Cs-137 through gamma-ray energy spectrum analysis and generates a spatial distribution map of the contamination.
Advanced DSP for High-Radiation Fields
- Advanced hardware integration: 12-bit ADC and high-speed FPGA-based digital pulse processing algorithms.
- Minimizes measurement uncertainty by eliminating pulse pile-up—a signal distortion occurring in extreme radiation environments.
Tech 03
Physicochemical Hybrid Decontamination The synergy of powerful physical impact and eco-friendly chemical solutions removes over 90% of contaminants—even in narrow crevices—within 60 minutes.
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Dual-Frequency Ultrasound
Optimally arranged 25kHz (strong shockwave) and 40kHz (fine penetration) transducers effectively strip oxide layers from complex-shaped metal surfaces.
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Ultrasonic Cavitation
Maximizes the contraction and implosion energy of micro-bubbles within the liquid to dislodge deeply embedded radionuclides.
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Environmentally friendly chemical oxidation and reduction decontamination
Decontamination by collapse of CRUD and spinel structures induced by powerful hydroxyl radicals
Tech 04
Zero Liquid Discharge (ZLD) Decontamination Effluent Treatment
4,000G
Centrifugation
The decontamination effluent is processed through a high-speed centrifuge featuring high-strength maraging steel rotor tubes. This system utilizes density differentials to rapidly perform primary separation of radioactive sludge
Ion Exchange Resin Purification
The primary-separated supernatant passes through multi-stage precision membrane filters and specialized ion exchange resin columns. This process completely removes fine dissolved radionuclides, enabling 100% recycling into decontamination water.
Sludge Evaporative Drying
The collected bottom-concentrated sludge is processed in a band heater furnace to force the evaporation of moisture. This stabilizes the waste into a solid state, drastically reducing its volume to less than 1/10th of the original size.
Customizable Modular Design for On-site Integration
Plug & Play Modular Integration
Designed with a 1.6m x 3.4m standard frame, the modules can be transported via freight elevators. Quick-coupling piping and multi-pin connectors allow for immediate on-site integration and separation.
Spatial Flexibility (Linear / Stackable)
To overcome the physical constraints of confined nuclear power plant work areas, the system layout can be freely reconfigured into linear, U-shaped, or vertically stacked arrangements depending on the terrain.
Total Radiation Shielding Protection
The exterior of the modules is equipped with detachable shielding panels made of boron-containing polyethylene and lead sheets. Combined with redundant remote monitoring, this system ensures durability and safety even in high-dose environments.
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