Aim and Scope
SAFOOD4MED is not just another research initiative; it’s a groundbreaking mission poised to revolutionize the way we view food waste and packaging in the Mediterranean region. Our aim is clear: to create an affordable, ingenious biorefinery system that empowers smallholders through small-scale food wastetransformation into biodegradable bioplastics. But we’re not stopping there; we’re going the extra mile. Imagine a digital ecosystem where food waste is no longer just discarded but becomes a valuable asset. We’re aiming to craft a cutting-edge agri-food waste value-chain and supply chain, maximizing the potential of major food-waste components to create novel, high-value products for food packaging.
The proposed bioplastics aren’t ordinary plastics; they will be designed to be armed with remarkable antimicrobial properties, providing innovative solutions for food preservation. We’re fully committed to the concept of the circularity within the food system, leveraging digital technologies to recover and add value to food losses and waste. In SAFOOD4MED the bioplastics will be reintegrated into the food production chain, benefiting specifically goat or ship fresh cheese and fresh tomatoes, but the approach can be extended to benefit a wide range of other Mediterranean foods, creating a ripple effect of sustainability and innovation across the region.
Results and impacts
SAFOOD4MED will set up simple, eco-efficient, safe and automated technologies enabling the development of innovative food packaging formulations fulfilling the requirements of extended shelf-life of food while keeping it safe. The performance of the developed materials will be compared with those of reference traditional solutions, to ensure their superior competitiveness.
This will be pursued by a holistic approach, going from fractionation of food waste residue in high purity grade lignin, cellulose, and hemicellulose fractions to: automated procedures with low environmental impact; conversion of the fractions into food-grade bio-based polymers; bioplastics formulation/processing andmdigitally assisted monitoring of the quality of the antimicrobial packaging films. To optimize the use of the feedstock, unconverted fractions will be recovered and reused to co-produce biogas, thereby setting the basis for a decentralized biorefinery model. The evaluation of whole value chain in terms of environmental sustainability and economic viability will be evaluated through robust life cycle assessment (LCA), social life cycle assessment, and techno-economic modeling tools.
SaFood4Med 