



-
Our ZEOLITITE (CHABAZITE) is particularly selective for the removal of pollutant cations such as: ammoniacal nitrogen, phosphorus and potassium; today these pollutans are in the viewfinder of some laws. Moreover, our CHABAZITE is also extremely selective for some heavy metals such as: lead, barium and zinc.
This selectivity results in a high cation exchange capacity and also allows to reduce to zero the levels of pollutants initially very high. Its efficiency has allowed the treatment of waters of various origins:
- Civil waste and livestock waste;
- Waste from biological purifiers and landfill leachates;
- Waste from slaughtering industries;
- Waste from fishing industry and recycling waters from fish farming;
- Waste waters of ceramic industries and removal of pollutants from ceramic sludge.
ZEOWER WT has proved to be effective also for the desalting of saltwaters allowing the recovery of saline groundwater in many Italian areas. Water with a reduced concentration of sodium has been used by many companies for agricultural irrigation, obtaining the same results as with the use of drinking water.
ZEOVER WT can be used both in static and dynamic treatments, introduced into tanks or used for the realization of filters. Thanks to many years of experience we have on our shoulders and thanks to the wide range of products avaialble, dried and not dried and in different sizes, we are able to find out the more economical solution and the more suitable product to be used for the different applications.
Each wastewater has its own chemical composition; in order to avoid the mistake of underestimate the presence of interfering cations, the experts of the laboratories of the University of Modena and Reggio Emilia and the Department of earth Science, are a tour disposal for any test according to the aim you want to achieve.
Finally, recent studies have highlighted the selectivity of WT ZEOVER also against some radioactive molecules such as: cesium and strontium, but luckily this is a problem that at the moment we have not been asked to solve.