Summary
The food and drink industry is the EU's biggest manufacturing. However, this industry is one of the most water and energy intensive industries worldwide while the companies belong to that sector produce a lot of waste. Specifically, the food and beverage industry consumes 56% of the available water for industrial and urban use. Additionally, food processing embeds 28% of the total energy used for production, while the total direct energy consumed by the European food industry amounted to 28.4 Mt oil equivalent, while 30.6 Mt of food waste are produced in this industry. Although, huge steps have been made in increasing the water use efficiency through the use of modern technologies and methods, there is limited effort from the food and beverages industry to minimize freshwater use during the raw material processing. In addition, high water consumption in industrial areas lead to increased production costs due to the fact that the tariffs for public wastewater treatment can be very high in European cities as well as the industrial electricity prices can also be very high. Currently, solutions for wastewater treatment in industries include the use of clarification, membrane filtration, reverse osmosis, process water polishing, disinfection with water treatment chemicals and UV, and biological treatment technologies. However, the use of these technologies under a water-waste-energy nexus is very limited.
AccelWater’s project main objective is to optimize freshwater water consumption in the food and beverage industry under a water-waste-energy nexus by introducing beyond state-of-the-art water reclaiming, reusing and Artificial Intelligence enabled monitoring and control technologies will permit the use of reclaimed water in the manufacturing processes of food and beverages and on the same time will allow waste and energy reclamation, optimization and management, and consequently will result to environmental and socioeconomic sustainability.
AccelWater’s project main objective is to optimize freshwater water consumption in the food and beverage industry under a water-waste-energy nexus by introducing beyond state-of-the-art water reclaiming, reusing and Artificial Intelligence enabled monitoring and control technologies will permit the use of reclaimed water in the manufacturing processes of food and beverages and on the same time will allow waste and energy reclamation, optimization and management, and consequently will result to environmental and socioeconomic sustainability.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/958266 |
| Start date: | 01-11-2020 |
| End date: | 30-04-2025 |
| Total budget - Public funding: | 9 429 670,00 Euro - 8 115 787,00 Euro |
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Original description
The food and drink industry is the EU's biggest manufacturing. However, this industry is one of the most water and energy intensive industries worldwide while the companies belong to that sector produce a lot of waste. Specifically, the food and beverage industry consumes 56% of the available water for industrial and urban use. Additionally, food processing embeds 28% of the total energy used for production, while the total direct energy consumed by the European food industry amounted to 28.4 Mt oil equivalent, while 30.6 Mt of food waste are produced in this industry. Although, huge steps have been made in increasing the water use efficiency through the use of modern technologies and methods, there is limited effort from the food and beverages industry to minimize freshwater use during the raw material processing. In addition, high water consumption in industrial areas lead to increased production costs due to the fact that the tariffs for public wastewater treatment can be very high in European cities as well as the industrial electricity prices can also be very high. Currently, solutions for wastewater treatment in industries include the use of clarification, membrane filtration, reverse osmosis, process water polishing, disinfection with water treatment chemicals and UV, and biological treatment technologies. However, the use of these technologies under a water-waste-energy nexus is very limited.AccelWater’s project main objective is to optimize freshwater water consumption in the food and beverage industry under a water-waste-energy nexus by introducing beyond state-of-the-art water reclaiming, reusing and Artificial Intelligence enabled monitoring and control technologies will permit the use of reclaimed water in the manufacturing processes of food and beverages and on the same time will allow waste and energy reclamation, optimization and management, and consequently will result to environmental and socioeconomic sustainability.
Status
SIGNEDCall topic
CE-SPIRE-07-2020Update Date
27-10-2022
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H2020-EU.2.1.5. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Advanced manufacturing and processing
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Organisations
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| AGRICULTURAL & ENVIRONMENTAL SOLUTIONS (Coördinator)
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| ASSOCIACIO CATALANA D INNOVACIO DELSECTOR CARNI PORCI INNOVACC
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| ATHINAIIKI ZYTHOPIIA ANONYMOS ETAIRIA (ATHINAIIKI ZYTHOPIIA ANONYMOS ETAIRIA - ATHENIAN BREWERY SA)
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| AXIA INNOVATION UG
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| Associazione Nazionale Industriali Conserve Alimentari Vegetali
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| CALISPA SPA
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| DIGNITY IDIOTIKI KEFALAIOUXIKI ETAIREIA
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| FRIESLANDCAMPINA ELLAS AE ANONYMOS EMPORIKI KAI BIOMIXANIKI ETAIREIA GALAKTOS GALAKTOMIKON PROIONTON...
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| FUNDACIO UNIVERSITARIA BALMES
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| HASKOLI ISLANDS
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| INSTITUTE OF COMMUNICATION AND COMPUTER SYSTEMS
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| MATADERO FRIGORIFICO DEL CARDONER SA
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| MATIS OHF
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| National Technical University of Athens
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| PRODAL SCARL