Title |
Industrial symbiosis for optimal bio-waste management and production of a higher value-added product / |
Authors |
Stunžėnas, Edgaras ; Kliopova, Irina ; Kliaugaitė, Daina ; Budrys, Rimas Pranas |
DOI |
10.3390/pr9122228 |
Full Text |
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Is Part of |
Processes.. Basel : MDPI. 2021, vol. 9, iss. 12, art. no. 2228, p. 1-15.. ISSN 2227-9717 |
Keywords [eng] |
animal by-products ; catering ; compost quality parameters ; hospitality ; industrial symbiosis ; intensive composting ; life cycle assessment ; life cycle inventory |
Abstract [eng] |
A considerable amount of food waste ends up in centralized treatment plants due to the lack of preventive measures, resulting in significant environmental impacts. Hospitality food waste management is even more resource-intensive because of animal by-products regulation. According to this regulation, companies must store and then consign waste to specific waste managers. The extensive need for transportation of high-moisture-content materials is the leading cause of the impact. Moreover, the management of category III animal by-products is costly for companies. A previous study has shown the economic benefits of decentralized animal by-product treatment by intensive composting in catering companies. Although the produced compost was characterized by exceptional quality parameters, it was phytotoxic. The investigation of hospitality waste management is scarcely discussed among scholars, and waste management on a regional scale is nearly absent. This study examines the regional management of hospitality food waste by exploiting the municipal waste management infrastructure and intensive composting at the source. The co-maturation experiment with animal by-products and municipal green waste primary composts showed that the phytotoxicity parameters of the cured compost were in the optimal range or below the thresholds (conductivity (1.1 mS cm−1 ), dissolved organic carbon (82 mg kg−1 ), and NH4+ /NO3− ratio (0.0027)). Additionally, the amounts of total nitrogen, water-soluble nitrogen, and water-soluble phosphorus in the compost were rated as very high. Finally, inventory and environmental impact analysis of the current and planned management approaches showed a reduction in 12 of 18 impact categories. |
Published |
Basel : MDPI |
Type |
Journal article |
Language |
English |
Publication date |
2021 |
CC license |
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