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Given that the objective of the LIFE BYPROTVAL project is the revalorisation of the protein fraction of animal by-products, it was considered appropriate to apply the process developed to the egg membrane waste in the LIFE EGGSHELLENCE project. Therefore, based on the samples supplied by the ITC, INESCOP's objective is to hydrolyse this membrane in order to take advantage of the organic protein present in the membrane by means of thermal and enzymatic hydrolysis. LIFE19 ENV/ES/000121).
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The main objective of WASTE4GREEN project is to produce two formulations of natural origin, safer and more sustainable, to reduce the use of chemical pesticides. On the one hand circular economy strategies are favoured, since the project find new uses for waste; on the other hand, chemical-based insecticides
are substituted and their adverse efects are mitigated.
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The main objective of the LIFE MICROFIGHTER project is to demonstrate in outdoor cultivation the efficacy of a new product and practice that will replace copper-based pesticides for the defence against relevant pathogens (downy mildew, bacterial mottle, bacterial spot and peacock's eye) of grapevine, tomato and olive (tuberculosis or olive knot disease and leaf spot).
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LIFE Vida for Citrus is a European project that aims to protect the citrus sector by developing plants resistant to the disease, and with the idea of implementing environmentally friendly cultural practices that limit the development of the vector that transmits the disease and contribute to reducing the carbon footprint and climate change. LIFE Vida for Citrus also aims to develop a tool for the rapid detection of the disease, which would greatly facilitate disease control. This project receives funding from the European Union, from the LIFE programme under agreement number LIFE18/CCA/ES/001109.
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The project proposes an innovative, profitable and positive energy balance WWTP solution for the integrated management of urban Wastewater (WW) and the Organic Fraction of Municipal Solid Waste (OFMSW) for populations of less than 50,000 equivalent inhabitants. The solution is based on sustainability, considering wastewater as a reusable resource and a source of energy and nutrients. A new paradigm arises in which WWTPs are considered as resource recovery plants and not disposal plants.
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LIFE BIOGASNET project demonstrates a cost-efficient and low-carbon footprint technology for biogas upgrading in order to boost the use of biogas as a sustainable energy source and reduce the carbon footprint of the energy cycle promoting the circular economy concept. The project promotes an innovative technology for biogas desulphurisation coupling a nitrification bioreactor with either an anoxic gas-phase biotrickling filter or an anoxic bioscrubber.
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This project aims to detoxify wastewater from the pharmaceutical industry. This will be achieved through the development and implementation of an innovative, economically viable and cost-efficient system for the transformation of pharmaceutical compounds, present in wastewater, into non-toxic substances (novel detoxification process). The system will be able to treat the wastewater generated from production activities, ensuring that no APIs would end up in the wastewater sewage system without being processed and detoxified by the system developed (PHARMA-DETOX Demo System).
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HELECTOR is one of the leading companies in Southeast Europe, with expertise in the fields of waste management and power generation. With vertically integrated operation, HELECTOR is active in the whole spectrum of the Design, Construction and Operation of modern waste treatment plants, in alternative fuel production and in biomass exploitation.
At the same time, ΗELECTOR has significant experience and know-how in the energy exploitation of biogas produced in landfills, having to demonstrate among its achievements, the Design, Construction and multi-year Operation of power plants, including the Biogas power plant in the Integrated Solid Waste Management Plant (OEDA) of Ano Liossia, Fyli, which is one of the largest in the world, with an installed capacity of 24 MW.
