intelWATT - Intelligent Water Treatment Technologies for water preservation combined with simultaneous energy production and material recovery in energy intensive industries (DCM.AD005.046)
Area tematica
Scienze chimiche e tecnologie dei materiali
Area progettuale
Chimica e materiali per le energie rinnovabili (DCM.AD005)Struttura responsabile del progetto di ricerca
Istituto per la tecnologia delle membrane (ITM)
Responsabile di progetto
ENRICA FONTANANOVA
Telefono: 0984492010
E-mail: e.fontananova@itm.cnr.it
Abstract
IntelWATT aims to develop innovative, cost efficient, smart separation technologies applied in energy and water intensive industries. The goal of the project is to demonstrate 3 TRL7 case studies that will achieve water preservation along with energy production and material recovery. The proposed solutions will also target at zero liquid discharge while implementing maximum water reuse. Tailor made sensors and automated decision making mechanisms will optimize the process conditions in real time. The case studies will be implemented in crucial EU and global industrial applications such as electricity production, mining and metal plating.
Obiettivi
To design, evaluate and optimize the 3 intelWATT's case studies (CS):
-CS 1:Demonstration prototype for CTBD treatment. The development of efficient, cost effective, smart solutions for water management in a thermoelectric power plant, aiming at minimization of the cooling tower blow down (>99% recovery) trough developing a pilot unit of 100 m3/day treatment capacity installed in the premise of PPC's unit V (natural gas combined circle facility, Megalopolis, Greece) based on a closed loop, near zero liquid discharge approach.
-CS 2: Demonstration of a symbiotic concept between industries: sustainable production of energy and water. In this context, an integrated pilot unit (100 m3/day) comprised by Reverse Electrodialysis (RED) and solar powered membrane distillation (MD) systems.
-CS 3: The application of a novel, hybrid high recovery RO (HRRO) / Ion exchange (IX) resin prototype will demonstrate the recovery of valuable electrolytes and fresh water preservation in a plastic electroplating facility. The process is aiming towards recovering up to 95 % of Chromium and Copper and 50% of Nickel, while preserving 65% of fresh water.
ITM-CNR is leader for the case study 2.
Data inizio attività
01/10/2020
Parole chiave
Water re-use, reverse electrodialysis, membrane distillation
Ultimo aggiornamento: 11/10/2024