The innovative and sustainable

Emer: technology that makes the difference

We called our invention EMER (Enhanced Magnetic Heterogeneous Reactor), a machine that develops a catalytic oxidation process.
he use of a catalyst allows to reduce the duration of the chemical oxidative reactions that degrade pollutants and consequently, for the same amount of treated water, it is possible to reduce the size of the systems, compared to traditional ones.

A unique, sustainable and patented invention

On March 6th, 2020, our Company was granted Patent No. 102017000149010 “Catalyst made from battery waste material” and we are currently in the process of filing for two more patents.

When integrated disinfection becomes essential

Viruses in general, and covid 19 in particular, are very sensitive to disinfectants, especially oxidizing agents, such
as HYDROGEN PEROXIDE which is the base of our treatment process.
The oxidizing power of HYDROGEN PEROXIDE (H 2 O 2 is higher that of chlorine and slightly lower than ozone
Moreover, the use of the hydrogen peroxide by means of CATALYZER increases its reactivity, while drastically
reducing the reaction times, which otherwise, would require hours or days.

Our technology, providing by the use of hydrogen peroxide and the catalyzer, does not need to be integrated with downstream disinfection phase, when used independently If on the other hand, it integrates existing systems, it can be considered an excellent disinfection phase.

used batteries:
a virtuous process

Generally, catalysts have a very high cost, which has often prevented their subsequent use for wastewater oxidation. By obtaining part of the materials needed to produce our catalyst from used batteries, we not only recycle waste and turn it back into a product, but we are able to reduce production costs and, consequently, sales prices. We found a way to make a product that used to be a luxury for a few now accessible to everyone.

Effectiveness of treatment

Our process is effective even in treating the most recalcitrant wastewater


Our plants are automated in accordance with the requirements of the Transition 4.0 Plan.

Remote Access

Our plants can be controlled and managed remotely.

Adaptability to existing installations

Our systems integrate perfectly with existing plants/systems supporting their operation.


Our systems can operate only when needed.

Adaptability to any quantity

Our solutions can adapt to treat any flow rate of wastewater.

Easy to use

Our systems have been designed and automated so that anyone can use them.

Reduced size

Up to 85% smaller than those using alternative technology.


Our plants can grow together with the company or adapt to different needs related to the changing production processes.

Cost reduction

Savings of up to 75% compared to other technologies.

Reduced energy consumption

Up to 70% of savings in energy consumption compared to other technologies.

Sludge disposal reduction

Savings of up to 65% of sludge production compared to the use of other technologies.


Possibility of eliminating biological treatment and, where necessary, reducing its size by up to 70%.
Strengthening of existing plants, avoiding expansion and reducing treatment costs.


Possibility of reaching discharge limits, reducing up to 80% of the size compared to the installation of a biological plant. Strengthening of existing plants and avoiding expansion.


Possibility to reach the discharge limits, reducing up to 85% of the size compared to the installation of a biological plant. Strengthening of existing plants and avoiding expansion.


Possibility of reaching discharge limits with compact, modular plants, a reduced treatment chain and consequent reduction of CAPEX and OPEX.


Enhancement of the efficiency of chemical-physical treatment with a consequent reduction, in the number and size of the downstream treatment stages. Reduction of up to 50% of biological treatment stages. Substantial reduction in treatment costs.


The effectiveness of our process in the treatment of surfactants and oily substances makes our plants particularly effective in the purification of wastewater produced by the cosmetics and detergents industry in general.