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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Eco-friendly Chemical Synergy
Rapidly reduces environmental dose rates by concurrently using low-concentration oxalic and citric acids.
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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