Life-ANADRY
The dry anaerobic digestion technology is currently being tested under thermophilic and mesophilic conditions and it will be analysed in the project as an alternative management for the sewage sludge produced in those WWTPs.
LIFE-ANADRY will…
SCALIBUR - Scalable Technologies for Bio-urban Waste Recovery
SCALIBUR will identify and develop best practices for selective collection, transport, sorting and pre-treatment, and characterisation of food waste and urban sewage sludge.
Partners will engage…
LEX4BIO
Phosphorus resources are finite, and production of nitrogen fertilisers is energy intensive, causing greenhouse gas emissions. In LEX4BIO, replacing mineral fertilisers with bio-based fertilizers (BBFs) within EU is evaluated by mapping…
VALUEWASTE
Every year each European citizen produces on average 200 kg of municipal biowaste. This means that between 118 and 138 million tonnes of biowaste arise annually in the EU.
The municipal biowaste management systems that currently exist in Europe, such as…
Circular Agronomics
Along 7 work packages and 6 case-studies, representing locations with different biogeographic conditions and environmental challenges typical for the European agricultural sector, the objective of CA is to contribute to a development towards…
Phos4You
Phos4You addresses the phosphorus (P) challenge. P is a nutrient essential for all living organisms. Though it is a finite resource on earth, P is largely wasted today. The EU acknowledged this by adding phosphate rock to its list of critical raw…
SYSTEMIC
Creation of a roadmap to facilitate solutions for biowaste in the EU.
SYSTEMIC recognizes Europe’s challenge to tackle the increasing resources constraint and to facilitate the transition towards a more circular economy (COM, 2015-614). SYSTEMIC…
ALG-AD
ALG-AD addresses reuse of waste to generate products for a sustainable economy, reducing pollution risk and dependence on imported material resources.
North West Europe (NWE), a densely populated intensive agricultural area, contributes disproportionately…
SABANA
The key advantages of SABANA project are: the sustainability of the process, using marine water and recovering nutrients from wastewaters while minimizing the energy consumption, and the socioeconomic benefits, due to the relevance of the target bioproducts…
Run4Life - Recovery and Utilization of Nutrients 4 Low Impact
The world food supply is entirely dependent on the use of fertilisers. However, the current fertiliser production practices are not sustainable. Phosphate rock is a non-renewable resource, whereas the…