Print Email Facebook Twitter Got Whey? The significance of cheese whey at the confluence of dairying, environmental impacts, energy and resource biorecovery Title Got Whey? The significance of cheese whey at the confluence of dairying, environmental impacts, energy and resource biorecovery Author Giulianetti de Almeida, M.P. (TU Delft BT/Environmental Biotechnology; University of Campinas) Mockaitis, Gustavo (University of Campinas) Weissbrodt, D.G. (TU Delft BT/Environmental Biotechnology) Date 2021-01-07 Abstract Milk discovery and processing enabled human settling and thriving in various settings. The discovery of cheese led to the production of whey as dairy by-product. Although it can find application in food, beverages, personal care products, pharmaceuticals and medical treatment, cheese whey is a massive dairying residue world-wide (154 Mm3·y-1) with high organic and nutrient loads. About 42% is used as low-value products as animal feed and fertilisers or even directly discharged in water streams, leading to ecosystem damage by eutrophication. Recycling and repurposing whey remains a challenge for remote locations and poor communities with limited access to expensive technology. Anaerobic digestion is proven and accessible for utilizing whey as substrate to produce biogas and/or carboxylates. Alternative processes combining anaerobic digestion and low-cost open photobioprocesses can foster the valorisation of cheese whey and capture of organics and nitrogen and phosphorus nutrients into a microalgal biomass that can be used as food and crop supply or processed into biofuels, pigments, antioxi-dants, among other value-added products. Awareness should be raised about the economic potential of cheese whey surplus by developing an action plan that (i) identifies stakeholders, (ii) sets goals and achieves solutions, (iii) decreases technology gaps among countries, (iv) enforces legislation and compliance, and (v) creates subsidies and foments partnerships with industries and other countries for the full valorisation of whey. We propose a closed-loop biorefinery implementation strategy to simultaneously mitigate environmental impacts and valorise whey resources. Subject cheese wheyenvironmental impactsresource valorisationlaws and regulationsinformation accessanaerobic and microalgal processes To reference this document use: http://resolver.tudelft.nl/uuid:301b20e4-165a-4bee-9a87-afb7019008da DOI https://doi.org/10.24404/5fdd3c22eaf7860008874c47 Source The Evolving Scholar Part of collection Institutional Repository Document type journal article Rights © 2021 M.P. Giulianetti de Almeida, Gustavo Mockaitis, D.G. Weissbrodt Files PDF Got_Whey_The_significance ... ery_3_.pdf 1.52 MB Close viewer /islandora/object/uuid:301b20e4-165a-4bee-9a87-afb7019008da/datastream/OBJ/view