Asipari builds an online-based real-time multi-heavy metals biosensor and purification method achieving information- and being decision support system for urban and industrial water quality assessment and management integrating on-line monitoring and modeling, in support of relevant eu directives.
To perform a wide study of the possibilities of achieving "zero waste" concept in feather wastes of poultry industry, i.E. Use of waste feather in development and production of various types of side products of higher added value.
To update the existing wastewater treatment plant of rinse water from electroplating procedures. A combination of uf and nf or the ro system would be adopted for the improvement of wastewater quality, in order to reuse the treated water.
The interest project will foster sustainable development in israel and italy through countries cooperation in the design of innovative services and technological solutions for contaminated sediment management in coastal and port areas
The general objective is to solve the slaughterhouse waste valorisation of high keratin content by means of applying environmental friendly technologies allowing to obtain biogas and new fertilizer products for farming application.
Synergetic effect of nano-iron (nzvi) and iron reducing bacteria (irb) will be used to the improvement of the technological intervention (in-situ bio-regeneration of nzvi). Role of irb is coupled with the biodegradation and with the regeneration of fe(iii) layer on oxidised form of nzvi particles.
Storage integrates new scientific knowledge into new tools for better groundwater management and is focusing on new methods to manage infiltration of treated effluents to aquifers and to recharge groundwater resources especially in the localities with abstractions exceeding natural infiltration.
Project studies problem of waste from grape and fruit processing industry as a source for sustainable use in agriculture. Improved technologies for pomace composting and ensiling will be main results. Obtained products will be tested for nutritive value as animal feed and fertilizer in production.
Objective of the project is to improve and quantify the performances of membrane processes uf/nf, as well as mbr, for the treatment of oily wastewater, and to investigate their capabilities of achieving a water quality that meets reuse criteria.
Development of new flame retardant chemicals capable to functionalise fabrics of different nature, without altering the properties of the textile and just making use of the optimal quantity of that product, and simultaneously reducing the environmental impact.