NEWFERT

Nutrient recovery from bio-based Waste for Fertiliser production

Summary

Converting waste into resources is key to a circular economy; Europe produces more than 2.5 billion tonnes of waste per year. Around 20 percent of this is classifiable as ‘biowaste’.

NewFert plans to design and develop technologies that will re-use and valorise biowaste components, making them suitable as secondary raw material in the fertilizer industry. The idea is to fill the gaps in nutrient recovery technologies and develop specific solutions to realise a new food value chain in fertiliser industry

By creating this new value chain, NewFert will strengthen both European competitiveness and boost the potential of the bio-based economy.

Description

Objectives: 
  • To develop a new value chain based on nutrient recovery bioprocesses from waste streams and residues for manufacturing a new generation of bio-based fertilisers.
  • Turn bio-based solid and liquid residues, specifically ashes of different origins and livestock effluents, into bio-based fertilisers.
  • To build up a breakthrough concept for the fertiliser industry.
  • To develop a viable and cost-effective nutrient recycling scheme and effective biorefinering technologies aimed at increasing nutrient recovery ratios.
  • To decrease raw material dependency, prevent resource depletion and reduce the environmental impact increasing the fertiliser industry sustainability.
Expected impacts: 
  • Achieving technological validation of fertilisers with the improved concentration of individual nutrients (at least 15% of the overall volume when using recycled nutrients alone) and a high availability to plants (at least 70%)
  • Enabling the substitution of a significant percentage (at least 10%) of nitrogen and phosphorus with recycled components in commercial fertilisers.
  • Contribution to a reduction of imports of mineral resources while enhancing the reuse of waste products.
  • Improving fertilisers in view of environmental impact and price competitiveness as compared to the current non-bio-based alternatives.