Summary
RESURGENCE addresses industrial circular water systems in a wide perspective which embraces efficient technologies for water circularity, energy and feedstock recovery, with the aim of contribute to EU climate neutrality, circularity, and competitiveness.
RESURGENCE will work in 4 case studies that include 3 industrial sectors – Pulp&Paper, Chemical and Steel – as well as a 4th case to explore the synergies between urban water treatment and industries.
Innovative solutions will be tested for water treatment – membranes, electrochemical technologies, adsorbents, advanced oxidation processes and hybrid biological systems – exploring also the recovery of energy (heat, electricity, biogas, H2) and feedstocks ( bioactive fenols, biopolymers, cellulose, lignin, latex, acrylic polymers, phosphate & nitrogen, biochar, MOFs and metals, including Critical Raw Materials). Digital tools will be also developed and applied, including models for energy, water and risk management, physical and software sensors for data acquisition, digital twins, and decision-support tools enabling optimal water treatment technology set-up and day-to-day operation with seized flexibility opportunities on smart grids.
The project will be guided by a comprehensive sustainability and economic assessment to support by evidence the gains of these technologies, togheter with H&S analysis. Local effects multiplication of case studies is pursued by promoting seeds of future hubs for circularity. A comprehensive consortium of 20 partners from 11 countries covering the whole geographical scope of the EU, and with international cooperation with Turkey and Pakistan will work together to achieve significant outcomes and produce long-term impact.
RESURGENCE will work in 4 case studies that include 3 industrial sectors – Pulp&Paper, Chemical and Steel – as well as a 4th case to explore the synergies between urban water treatment and industries.
Innovative solutions will be tested for water treatment – membranes, electrochemical technologies, adsorbents, advanced oxidation processes and hybrid biological systems – exploring also the recovery of energy (heat, electricity, biogas, H2) and feedstocks ( bioactive fenols, biopolymers, cellulose, lignin, latex, acrylic polymers, phosphate & nitrogen, biochar, MOFs and metals, including Critical Raw Materials). Digital tools will be also developed and applied, including models for energy, water and risk management, physical and software sensors for data acquisition, digital twins, and decision-support tools enabling optimal water treatment technology set-up and day-to-day operation with seized flexibility opportunities on smart grids.
The project will be guided by a comprehensive sustainability and economic assessment to support by evidence the gains of these technologies, togheter with H&S analysis. Local effects multiplication of case studies is pursued by promoting seeds of future hubs for circularity. A comprehensive consortium of 20 partners from 11 countries covering the whole geographical scope of the EU, and with international cooperation with Turkey and Pakistan will work together to achieve significant outcomes and produce long-term impact.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101138097 |
| Start date: | 01-12-2023 |
| End date: | 30-11-2027 |
| Total budget - Public funding: | 9 222 570,50 Euro - 9 222 570,00 Euro |
Cordis data
Original description
RESURGENCE addresses industrial circular water systems in a wide perspective which embraces efficient technologies for water circularity, energy and feedstock recovery, with the aim of contribute to EU climate neutrality, circularity, and competitiveness.RESURGENCE will work in 4 case studies that include 3 industrial sectors – Pulp&Paper, Chemical and Steel – as well as a 4th case to explore the synergies between urban water treatment and industries.
Innovative solutions will be tested for water treatment – membranes, electrochemical technologies, adsorbents, advanced oxidation processes and hybrid biological systems – exploring also the recovery of energy (heat, electricity, biogas, H2) and feedstocks ( bioactive fenols, biopolymers, cellulose, lignin, latex, acrylic polymers, phosphate & nitrogen, biochar, MOFs and metals, including Critical Raw Materials). Digital tools will be also developed and applied, including models for energy, water and risk management, physical and software sensors for data acquisition, digital twins, and decision-support tools enabling optimal water treatment technology set-up and day-to-day operation with seized flexibility opportunities on smart grids.
The project will be guided by a comprehensive sustainability and economic assessment to support by evidence the gains of these technologies, togheter with H&S analysis. Local effects multiplication of case studies is pursued by promoting seeds of future hubs for circularity. A comprehensive consortium of 20 partners from 11 countries covering the whole geographical scope of the EU, and with international cooperation with Turkey and Pakistan will work together to achieve significant outcomes and produce long-term impact.
Status
SIGNEDCall topic
HORIZON-CL4-2023-TWIN-TRANSITION-01-40Update Date
29-01-2024
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Organisations
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| FUNDACION CENTRO TECNOLOGICO DE INVESTIGACION MULTISECTORIAL (Coördinator)
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| AQUAPORIN AS
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| BARNA STEEL SA
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| CELSA HUTA OSTROWIEC SP Z OO
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| CENTRAL SOLUTIONS LIMITED
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| ENCO SRL
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| FCC AQUALIA SA
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| FUNDACION PARA EL DESARROLLO Y LA INNOVACION TECNOLOGICA
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| KUNGLIGA TEKNISKA HOEGSKOLAN
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| NATIONAL UNIVERSITY OF SCIENCES ANDTECHNOLOGY AT ISLAMABAD
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| NAVIGATOR PULP FIGUEIRA SA
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| ORGANIK KIMYA SANAYI VE TICARET AS
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| POZZI LEOPOLDO SRL
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| RAIZ - INSTITUTO DE INVESTIGACAO DAFLORESTA E PAPEL
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| SVEUCILISTE U ZAGREBU FAKULTET ELEKTROTEHNIKE I RACUNARSTVA