2000

m2
slabs per day

600

m3/h
water flow rate

5

ton/h
sludge in filterpress

Marmi Orobici

Water and sludge treatment plants
Main requirements:

  • High quality standards for treated water: suspended solids, pH, foam control
  • Plant flexibility to manage variability in materials and processing
  • High volumes of water to be treated in circular cycle
  • High volumes of sludge to be dewatered

Plant details

Continuous evolution

Starting from an inadequate situation back in 1995, Tecnoidea has made all the necessary upgrades over the years to meet the requirements of an avant-garde company continuously evolving.

Complex process

Although stone processing is normally one of the most straightforward processes among those handled by Tecnoidea, in this particular case the use of valuable materials with complex technologies, involving the use of specific resins and chemical additives, has required the engineering and supply of more sophisticated water treatment systems such as, for example, pH correction from acid to neutral range.

High variability in materials

The sludge to be handled by the filter press varies from hour to hour according to the materials processed and the processing carried out.

Tecnoidea has configured the plants so that this variability can be handled automatically, which makes it possible to obtain water suitable for circular cycle treatment and adequately dewatered sludge under all circumstances.

4.0 Plant

Thanks to the high degree of automation of the plant and an appropriate remote system management, it has been possible to comply with all the requirements of Law 4.0 and provide real-time information useful for the integrated management of water and sludge treatment process.

Flagship filterpress

Thanks to the attention that Marmi Orobici paid to the details, respect for the environment and the exploitation of process residues, it has been possible to provide a top range filterpress, perfectly sized and fully equipped normally used in the most technologically advanced industrial environments, reducing the need for operator intervention to almost zero and greatly increasing the service cycle of all parts subject to wear and tear.