Acronym WeBoat
Category
Aquaculture
Title Technology transfer from ballast water to aquaculture water for removal of delousing agents in wellboats and pens Programme International Cooperation
Instrument (FP6)
Contact Type (FP7)
Strand (Interreg)
NA
Theme (FP7)
Activity Area (FP6)
Regional Area (Interreg)
Action (COST)
NA
Specific Programme (FP7)
NA
Funding source National-European Coordinator Pernilla Carlsson Coordinator email pca@niva.no
Coordinator institution
NIVA - Norwegian Institute for Water Research (Norway)
Institutions involved
NA - Aqua Pharma Belgium (Belgium) ,
NA - Fraunhofer Institute for Ceramic Technologies and Systems (Germany) ,
NA - Hydac Process Technology GmbH (Germany) ,
TWOA - Norwegian Coastal Shipowners - Kystrederiene (Norway) ,
NGT - Norwegian Greentech AS (Norway) ,
NA - PHARMAQ AS (Norway) ,
Start year 2022 End year 2025 Funding (€) € 506,300 Website https://www.era-learn.eu/network-information/networks/martera/martera-call-2021/technology-transfer-from-ballast-water-to-aquaculture-water-for-removal-of-delousing-agents-in-wellboats-and-pens Summary The overall idea of the WeBoat project is to develop and demonstrate an environmentally friendly marine water purification technology for chemical post-sealice treatment application. The salmon parasite sealice is still a major problem in aquaculture along Norwegian and European coastlines. To combat sealice, the fish can be treated by delousing pharmaceuticals-based bath treatment on board of wellboats or in pens at sea by service boats. After treatment, the treated wastewater is usually released back to sea, along with the remaining medicines and other chemicals generated in the water during chemical sealice treatment. Some of those released chemicals might be potentially harmful to the local aquatic environment, and will increase the problem of medicine resistant sealice emergence. Therefore, recent and upcoming national regulations are becoming stricter for the reduction of the discharge of delousing agents. WeBoat solution will answer to those regulations by providing removal and/or neutralization of medicines or other chemical residuals in delousing wastewater. First, the potentially most harmful release of sealice agents will be identified and defined by the project as the target for the removal treatment. The WeBoat technology development will be based on maritime technology transfer from ballast water treatment technology. The removal efficiency will be demonstrated in small scale experiments and verified finally in full scale experiments with representative fish water quality. The goal of the R&D work will be to determine optimal conditions for dimensioning, operation and management of the maritime technology onboard of a vessel for efficient removal of the pollutants in the delousing wastewater according to environmental regulations, while minimizing energy consumption, footprint and cost for competitiveness on the marked.
Keywords
Cage aquaculture;
Fish;
Waste water;
Salmon;
Environmental impact;
Technology;
Open sea aquaculture;
Parasite;
Marine Region
76
Not associated to marine areas
0
Marine Region Map
