ENERGY & ENVIRONMENT

Process technologies for tomorrow.

Safely drying and cementation of ion-exchange resins

The nuclear industry relies heavily on water, which often becomes contaminated during various processes. To remove this contamination, ion-exchange resins are commonly used. These resins, once polluted, must be safely handled and stored due to their radioactive content. Hosokawa Micron has developed two methods to prepare contaminated ion-exchange resins for long-term waste storage: drying prior to cementation and direct cementation.

Nauta conical vacuum dryer

Drying of resins prior to cementation

The waste water and resin mixture is first collected before being dried to reduce its volume. This mixture is then fed into a specially modified Nauta® vacuum dryer. Special filter elements, integrated into the vessel wall near the base of the dryer, enable efficient water removal, concentrating the polluted resin. Once the fill level is reached, vacuum and heat are applied, reducing the moisture content from 50-55% (wt) down to around 4%. The final product temperature reaches approximately 100°C.

The hot, dried resin is discharged into special drums, which are immediately pressed to reduce their volume to less than 30% of their original size. Four to five of these compressed drums are then placed into a larger drum, which is filled with cement and sealed for long-term storage.

Cementation of wet resins

In an alternative process, the water-resin mixture is collected and initially dried using a filter press. The dried material is then mixed with cement in a drum-type mixer. After mixing, the drum is sealed, and the contaminated mixing rotor is disposed of in the final drum of each cleaning campaign.

However, the need to discard the rotor after every campaign adds significant operational costs. To resolve this, Hosokawa Micron collaborated with customers to develop a more efficient method that preserves the rotor. This led to the development of a modified Flexomix high-impact mixer, which features two inlets—one for the pressed resin and one for cement. Water is added during the mixing process, and the collection drums are pressed to the bottom of the Flexomix unit. The drum fill level is monitored via radar detection and a camera mounted inside the Flexomix housing.

The Flexomix, with its stainless steel mixing chamber and integrated vibrator, ensures thorough mixing and prevents product buildup.

Benefits of both methods

The method using the vacuum dryer significantly reduces the number of contained drums per campaign. The method using a Flexomix has the big advantage that rotor disposal is eliminated.

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Sustainable Processing Systems

Hosokawa Micron B.V. is certified according to ISO 14001. Our certification covers all environmental themes of ISO 14001: air, soil, energy, waste, water, noise and hazardous substances. In addition, Hosawa Micron was awarded an EcoVadis Silver Medal for its sustainability achievements. EcoVadis determined that the company was among the top 15% of companies rated by EcoVadis in the special machinery industry.

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