Advanced Engineering Solutions for Radioactive Liquid Waste Management

Advanced containment and separation technologies that ensure the neutralization of radioactive isotopes and the minimization of waste volume, while maintaining absolute compliance with the highest nuclear and environmental safety standards.

 Full Neutralization of Radiological Risks

Handling radioactively contaminated water leaves no room for error. We do not offer conventional treatment; we build an integrated engineering shield that protects your environment and personnel from the hazards of radioactive isotopes.

Challenge: Dangerous Flows & Containment Complexity Solution: Smart Multi-Stage Treatment System
Long-Term Radiological Impact: Liquid waste contains isotopes with varying half-lives, posing a chronic threat to the environment and public health if not isolated. Selective Isotope Neutralization: We utilize ion exchange and specialized ultra-filtration technologies to capture and stabilize radioactive isotopes with extreme precision.
Waste Volume Expansion & Storage Costs: Storing vast quantities of radioactive liquids requires expensive fortified tanks and consumes critical facility space. Over 95% Volume Reduction: Through advanced thermal evaporation and drying processes, we convert thousands of liters of liquid into concentrated solids that are easy to store safely.
Strict Legal & Regulatory Constraints: Facilities are subject to rigorous international and local oversight; any leak or mishandling leads to facility closure and severe legal accountability. Full IAEA Compliance: Our systems ensure the output water conforms to International Atomic Energy Agency (IAEA) and local regulatory standards, with full documentation for environmental transparency.

Treatment and Radiological Shielding Stages

  • Characterization and Stratified Sorting

     Liquids are extracted via fortified lines and analyzed using Gamma Spectroscopy to determine the type, concentration, and activity level (low/medium) of radioactive isotopes, directing them to the appropriate treatment path.  

  • Chemical Co-Precipitation

     Injection of specialized chemical agents that bind with dissolved radioactive isotopes (such as Cesium, Strontium, and Cobalt), converting them into insoluble solid precipitates for easy mechanical separation.

  • Ion Exchange and Ultra-filtration

     Passing liquids through high-efficiency selective resins that act as microscopic magnets, capturing the finest remaining radioactive ions, followed by membrane filtration to ensure liquid purity.

  • Thermal Evaporation and Drying

    Concentrated solutions are directed to vacuum-sealed fortified evaporators, where water is evaporated and condensed as pure water, leaving radioactive waste concentrated in a minimal solid phase.

  • Stabilization and Safe Solidification

     Mixing the final concentrated radioactive waste with cement or specialized polymers (Vitrification) inside lead-lined drums, converting them into stable, leak-proof solid molds ready for long-term storage.

Recovered Outputs and Safe Recycling

 Safety and Operational Efficiency Indicators

  • Radioactive Isotope Removal 100%
  • Waste Volume Reduction 95%
  • Outside-System Emissions or Leaks 1%

Radiologically Pure Water

Processed water entirely free of industrial radioactivity, suitable for recycling within the facility or safe discharge per environmental standards.

Stable Solid Storage Molds

Fortified drums stabilized in non-degradable cement or glass molds, ready for transport and storage in accredited national radioactive waste repositories.