Obiettivo The combination of biosorption and bioprecipitation together with the knowledge of parameters determining these processes can allow to design new metal removal systems. In case of environmental applications all metals can be removed by biomass with no specificity. But in case of recycling activities highly selective biomass can be chosen. The use of viable biomass can lead to the formation of highly crystalline material with a high metal to biomass ratio (> 10). This will give rise to the recycling of metal ions or complexes into new crystals or minerals.The aim of this work is to come to high up concentration rates of heavy metals in a bacterial way. In this way a system can be developed for a better removal and recuperation of heavy and/or precious metals with a higher upconcentration rate (between 50 and 100 %) than the existing methods. To obtain this, a model will be constructed by taking into account the GENETIC (genes coding for heavy metal resistance, for metal binding proteins and for siderophore production), BIOCHEMICAL (metal binding proteins, enzyme activity, secondary metabolites), CELLULAR (cell charge, functional groups, polymers) and MICROENVIRONMENTAL (pH gradient, extracellular polymers, redox potential, ionic composition and concentrations) parameters which will determine bacterial SORPTION and MINERALIZATION processes.The model will be build on a few bacterial biomineralization systems which are already under study by different partners. With the model we will verify if this system can be extended to other bacteria and to other metals which will be of economic importance.The model will help the researchers to extend biosorption (5 to 10 % of metal bound per biomass) to biomineralization (more than 50 % of metal per biomass). In this way bacterial processes will become very interesting for heavy metal removal and recovery in different industries. The presented study will be the first time that a problem will be approached in a global way by the different capacities of the partners. Campo scientifico engineering and technologyenvironmental engineeringwaste managementwaste treatment processesrecyclingnatural sciencesbiological sciencesmicrobiologybacteriologynatural scienceschemical sciencespolymer sciencesnatural sciencesbiological sciencesbiochemistrybiomoleculesproteinsenzymesagricultural sciencesagricultural biotechnologybiomass Programma(i) FP3-BRITE/EURAM 2 - Specific programme (EEC) of research and technological development in the field of industrial and materials technologies, 1990-1994 Argomento(i) 1.2.1 - Recycling and recovery of industrial waste including non-ferrous metals Invito a presentare proposte Data not available Meccanismo di finanziamento CSC - Cost-sharing contracts Coordinatore VITO Contributo UE Nessun dato Indirizzo Boeretang 200 2400 Mol Belgio Mostra sulla mappa Collegamenti Sito web Opens in new window Costo totale Nessun dato Partecipanti (4) Classifica in ordine alfabetico Classifica per Contributo UE Espandi tutto Riduci tutto INSTITUT KUHN FÜR SICHERHEIT UND UMWELTSCHUT Germania Contributo UE Nessun dato Indirizzo JADGSCHANKENSTRAßE 52 09117 CHEMNITZ Mostra sulla mappa Costo totale Nessun dato JOHNSON MATTHEY PLC (TRADING AS SYNETIX) Regno Unito Contributo UE Nessun dato Indirizzo Blounts Court, Sonning Common RG4 9NH READING Mostra sulla mappa Costo totale Nessun dato NTU ATHENS Grecia Contributo UE Nessun dato Indirizzo 15780 ZOGRAFOU Mostra sulla mappa Costo totale Nessun dato UNIV INNSBRUCK Austria Contributo UE Nessun dato Indirizzo TECHNIKERSTR. 25 6020 INNSBRUCK Mostra sulla mappa Costo totale Nessun dato