Low-toxic cost-efficient environment-friendly antifouling materials (BYEFOULING)
Forskningsprojekt, 2013
– 2017
The BYEFOULING project will address high volume production of low toxic and environmentally friendly antifouling coatings for mobile and stationary maritime applications. The technology will fulfil the coating requirements as a result of the incorporation of novel antifouling agents and a new set of binders into coating formulations for maritime transportation and fishing vessels, floating devices and aquaculture.The main vision of BYEFOULING is to provide the means for industrial, cost-effective and robust manufacturing of antifouling coatings in Europe, where SMEs are both coating components developers and production technology providers. A set of procedures, guidelines and fabrication tools will be developed, enabling short time to market for new coating concepts.The main goal of BYEFOULING is to design, develop and upscale antifouling coatings with enhanced performance compared to current available products. The approach in BYEFOULING is to tackle the different stages of the biofouling process using innovative antifouling agents, covering surface-structured materials, protein adsorption inhibitors, quorum sensing inhibitors, natural biocides and microorganisms with antifouling properties. Encapsulation of the innovative compounds in smart nanostructured materials will be implemented to optimize coating performance and cost all along their life cycle. A proof-of-concept for the most promising candidates will be developed and demonstrators will be produced and tested on fields.BYEFOULING will combine a multidisciplinary leading research team from 11 European countries, which are already acting worldwide in the scientific community, with highly relevant and skilled technological partners, to build a consortium able to develop a full production line for antifouling coatings in Europe. Readily available low toxic and cost-effective antifouling coatings will increase the efficiency of maritime industry and be the enabling technology to realize new products.
Deltagare
Valery Chernoray (kontakt)
Chalmers, Mekanik och maritima vetenskaper, Strömningslära
Meisam Farzaneh
Chalmers, Mekanik och maritima vetenskaper, Strömningslära
Bercelay Niebles Atencio
Chalmers, Mekanik och maritima vetenskaper, Strömningslära
Samarbetspartners
AlgaEnergy
Alcobendans Madrid, Spain
AquaBioTech
Mosta, Malta
CIDETEC
Donostia - San Sebastian, Spain
Jotun
Sandefjord, Norway
Lonza
Basel, Switzerland
Materia Nova
Mons-Bergen, Belgium
National Technical University of Athens (NTUA)
Athens, Greece
Norsk Marinteknisk Forskningsinstitutt
Trondheim, Norway
OCAS
Zelzate, Belgium
PlasmaChem
Berlin, Germany
SINTEF
Trondheim, Norway
Smallmatek (SMT)
Aveiro, Portugal
Tel Aviv University
Tel Aviv, Israel
Universidade de Santiagode Compostela
Santiago De Compostela, Spain
Universite de Mons
Mons, Belgium
University of Liverpool
Liverpool, United Kingdom
Zunibal
Derio, Spain
Finansiering
Europeiska kommissionen (EU)
Projekt-id: EC/FP7/612717
Finansierar Chalmers deltagande under 2013–2017