Technical Factsheets

Cellvation®

Cellulose Recovery with Dynamic Sieving as Primary Treatment

AAT

Biogas Recovery in Primary Treatment with Polyfoam Biofilter

SCEPPHAR mainstream

Short-Cut Enhanced Phosphorus and PHA Recovery in Mainstream

IEX

Ion Exchange for Ammonia and Phosphorus Removal and Recovery from Wastewater

SCENA Short-Cut Enhanced Nutrients Abatment

Energy-efficient Nutrient Removal from Sludge Liquor without External Carbon Source

SCENA-THP Short-Cut Enhanced Nutrients Abatment

Energy-efficient Nitrogen Removal from Sludge Liquor after Thermal Hydrolysis

SCEPPHAR sidestream

Removal and recovery of nutrients and biopolymer production in sidestream

Biodrying and Dynamic Composting

Producing biomass fuel or biofertilizer from sewage sludge with low-energy biotechnology

Bio-Composites

Composite Materials from Recovered Cellulose and PHA

SMART-DSS

Decision Support System for Upgrading Existing Plants

SMART Materials

Cellulose, Bioplastic and Biocomposites

Monitoring

Online Energy and Greenhouse Gas Monitoring and Control

SMART Nutrients

Calcium Phosphate, Aqueous Ammonia and Ammonium Sulphate, Spent Zeolite Resin, Struvite and Biofertiliser
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SMART-Plant scales-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.

Seven plus two (7+2) pilot systems were optimized for more than two years in real environment in five municipal water treatment plants, including also two post-processing facilities. The systems were automatized with the aim of optimizing wastewater treatment, resource recovery, energy-efficiency and reduction of greenhouse emissions. A comprehensive SMART portfolio comprising biopolymers, cellulose, fertilizers and intermediates were recovered and processed up to the final commercializable end-products.

Dynamic modeling and superstructure framework for decision support was developed and validated to identify the optimum SMART-Plant system integration options for recovered resources and technologies.

The integration of resource recovery assets to system wide asset management programs were evaluated in each site following the resource recovery paradigm for the wastewater treatment plant of the future, enabled through SMART-Plant solutions. The project proved the feasibility of circular management of urban wastewater and environmental sustainability of the systems, through Life Cycle Assessment and Life Cycle Costing approaches as well as the global benefit of the scaled-up water solutions.

Global market deployment was 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 were also explored connecting the water sector to the chemical industry and its downstream segments such as the construction and agricultural sector, thus generating new opportunities for funding and potential public-private competition.