TECHNOLOGY
UR-TOUC
Fields of application
Key benefits of UR‑TOUC technology
- Compact and modular design, ideal for installations in confined spaces.
- High treatment efficiency, thanks to integrated MBBR and MBR processes.
- Reduced operating costs and simplified plant management.
- Low energy consumption achieved through optimisation of biological cycles and aeration.
- Easy installation and maintenance, with rapid setup and commissioning.
- Designed for treated water reuse, in line with the latest European directives on water sustainability.
UR-TOUC technology
Water is life, energy, and the future. Yet it is also a fragile resource that is too often wasted or polluted.
With patented UR-TOUC technology, we offer an innovative and sustainable solution for wastewater treatment and reuse, combining high performance, energy efficiency, and compact system design.
Thanks to the integration of MBBR (Moving Bed Biofilm Reactor) and MBR (Membrane Bioreactor) technologies, UR-TOUC modules ensure high treatment efficiency, long equipment lifespan, and optimised energy consumption, all within a prefabricated, modular, high performance system.
How the UR-TOUC system works
The core innovation of UR-TOUC technology lies in the integration of all biological treatment stages, based on a combined sequential MBBR and activated sludge process, followed by an MBR based sludge separation system, within a single compact module. This significantly reduces installation, operation, and maintenance costs.
It is an ideal solution for civil, urban, and industrial wastewater applications where high performance is required in limited spaces, together with robust and continuous operation.
The process is divided into three main stages:
1
Pre treatment
raw wastewater is subjected to fine screening to remove coarse and settleable solids.
2
MBBR biological treatment
the wastewater undergoes nitrification, denitrification, and oxidation through MBBR IFAS technology.
3
MBR filtration
the final stage consists of ultrafiltration through MBR membranes, producing water free from suspended solids and bacterial load.