Scale-up of low-carbon footprint material recovery techniques in existing wastewater treatment plants

Cel

SMART-Plant will scale-up in real environment eco-innovative and energy-efficient solutions to renovate existing wastewater treatment plants and close the circular value chain by applying low-carbon techniques to recover materials that are otherwise lost. 7+2 pilot systems will be optimized fore > 2 years in real environment in 5 municipal water treatment plants, inclunding also 2 post-processing facilities. The systems will be authomatisedwith the aim of optimizing wastewater treatment, resource recovery, energy-efficiency and reduction of greenhouse emissions. A comprehensive SMART portfolio comprising biopolymers, cellulose, fertilizersand intermediates will be recoveredand processed up to the final commercializable end-products. The integration of resource recovery assets to system-wide asset management programs will be evaluated in each site following the resource recovery paradigm for the wastewater treatment plant of the future, enabled through SMART-Plant solutions. The project will prove the feasibility of circular management of urban wastewater and environmental sustainability of the systems, to be demonstrated through Life Cycle Assessment and Life Cycle Costing approaches to prove the global benefit of the scaled-up water solutions. Dynamic modeling and superstructure framework for decision support will be developed and validated to identify the optimum SMART-Plant system integration options for recovered resources and technologies.Global market deployment will be achieved as right fit solution for water utilities and relevant industrial stakeholders, considering the strategic implications of the resource recovery paradigm in case of both public and private water management. New public-private partnership models will be explored connecting the water sector to the chemical industry and its downstream segments such asthe contruction and agricultural sector, thus generating new opportunities for funding, as well as potential public-private competition.

Dziedzina nauki

• engineering and technologyenvironmental engineeringwater treatment processeswastewater treatment processes
• engineering and technologymaterials engineeringcompositesbiocomposites
• engineering and technologyenvironmental biotechnologybioremediationcompost
• engineering and technologyelectrical engineering, electronic engineering, information engineeringelectronic engineeringsensors
• engineering and technologyenvironmental engineeringnatural resources managementwater management

Słowa kluczowe

• Bioresource recovery
• Phosphorus recovery
• Bioplastics recovery
• Cellulose recovery
• Revamping of wastewater treatment plants by innovation

Program(-y)

• H2020-EU.3.5. - SOCIETAL CHALLENGES - Climate action, Environment, Resource Efficiency and Raw Materials Main Programme
• H2020-EU.3.5.4. - Enabling the transition towards a green economy and society through eco-innovation

Temat(-y)

• WATER-1b-2015 - Demonstration/pilot activities

System finansowania

Koordynator

Uczestnicy (29)