PRODUCTS TO IMPROVE
THE RECOVERY OF VALUEABLE METALS
Our products are used from the mineral processing stage in order to increase the recovery of valuable metals and reduce environmental impact.
GOLDEN
A combination of rheological agents and latest generation catalysts
which, synchronised by chemical kinetics and in contact with the ore minerals, neutralises them and separates noble metals such as gold, silver and platinoids.
It has no generate environmental impact, it has a low biochemical oxygen demand (BOD), contributing to a cleaner environment. Increases the recovery of these metals, reducing the time of the recovery process.
GRANITO
A combination of anionic agents that act on all carbonaceous materials
Acts as a neutraliser of carbon bonds in carbonaceous minerals (coal, graphite), flotation concentrates, sands, and slurries, eliminating the surface tension favoured by these elements.
ARSENIC
A combination of alkaline acid neutralising agents, anionic agents, and rheological agents
That recover high value metals from sulphide minerals containing arsenopyrite. This inhibits what could have a negative effect on the recovering of these metals.
REFRACTARIO
A combination of alkaline acid neutralising agents anionic agents, and rheological agents.
Recovers precious metals from complex sulphide minerals (Refractory) with the exception of arsenopyrite. The recovery of high value metals in this type of mineral is low, however, with this refractory reagent we have been able to increase its recovery.
RECOVERY
A combination of chelating agents and the latest generation of catalysts
act on mercury, separating it from the other elements that surround it. No negative environmental impact.
It has a low biochemical oxygen demand (BOD). Provides a clean treatment to recover mercury from amalgamated tailings and contaminated soils.
OPTIMUS
A combination of rheological agents and the latest generation catalysts
which, synchronised by chemical kinetics and in contact with the ore minerals, is neutralised, separating noble metals such as gold, silver and platinoids.
It has no environmental impact and has a low biochemical oxygen demand (BOD), contributing to a cleaner environment. It increases the recovery of these metals, and reduces the time of the processing time.