WWTP. Wastewater
treatment plants

Physicochemical treatment of wastewater coagulation and flocculation
using the combination of our Mixing Reactors and base chemicals.

Thanks to RdM technology, Trienxis has created a unique physicochemical treatment in the world that achieves treatment results far superior to those obtained through conventional treatment. This optimises the chemical product used throughout the process and reduces or eliminates plant management costs by strictly controlling treatment parameters (pH and ORP), thereby automating and simplifying the daily operations of the treatment plant.

The RdM reactors, installed at the coagulation stage, recirculate the wastewater through them in a closed loop, returning the already coagulated water to the plant for further treatment through a conventional flocculation stage. In this stage, a flocculant specially designed for the type of coagulate created by the RdM reactor and adapted to each type of wastewater is used. Depending on the case, the coagulation stage can be supplemented with some basic chemicals or with mixtures formulated ad hoc for each client.

Reactor installed in recirculation over a treatment tank

Outstanding results

Removal of complex and stable compounds impossible to remove through conventional treatments.

Great stability of the process and results (KPI in effluent 99.93% of the time) despite variability in input loads.

In many cases, reduction in the quantity of chemicals to be dosed due to optimisation of their efficiency.

In certain cases, possibility of reusing treated water for other purposes.

Main areas of application
  • Industrial wastewater.
  • Process waters.
  • Treatment acids.
  • Other fluids (upon consultation)
Main sectors of activity
  • Steel industry.
  • Plastic and metal electroplating industry.
  • Automotive and ancillary industry.
  • Food industry.
  • Chemical industry.

Conventional Treatment

  • Specialised chemicals (high cost €).
  • Always dosing products in excess.
  • Predominant use of toxic and hazardous products for the environment.

Limited efficiency of the chemical product and the overall purification process

Trienxis Treatment

  • Basic chemical products.
  • Dosage of the product strictly necessary.
  • Predominant use of non-toxic and non-hazardous products for the environment.

High efficiency of the chemical product

Advantages of the Trienxis treatment
compared to conventional treatments

Reduction of settling times by at least 30%, thereby increasing the purification capacity of the existing installation.

Automation of the treatment and control over achieving results (direct correlation with control parameters: pH/Redox).

Reduction in the amount of sludge produced relative to the same removal of pollutant load. Sludge with high density and a moisture content around 30%.

Reduction in the chemicals to be dosed throughout the process and the use of less harmful products for the workers.

Reduction in treatment tanks: possibility of multiple treatments in the same tank (for example: metals, CN, NH₄⁺).

Treatment stability with constant discharge and within KPIs more than 99% of the time.

Outsourcing of the purification service

By paying a fixed monthly fee, we offer a turnkey wastewater treatment service where guaranteeing results is paramount. We centralise all tasks involved in purification, optimising and simplifying the process to the maximum for the client:

Stock control, logistics, and supply of necessary chemical products for treatment.
Weekly monitoring of treatment parameters and results.
Monthly meetings for control and visits to the plant by our specialist technicians.
Continuous technical advice.

We provide the option to fully manage our clients' plant at both the mechanical and treatment levels by subcontracting specialised personnel in the field.

We have a team of specialists dedicated to remotely monitoring and controlling treatment parameters.

Our laboratory? The client's plant. We conduct initial tests for treatment validation by the client at their own plant, considering the dynamics, peculiarities, and real production of the plant. We test the treatment efficiency in all possible situations.