Edgaras Stunžėnas scite author profile

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.

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Industrial Ecology for Optimal Food Waste Management in a Region

Stunžėnas

Kliopova²

2021

EREM

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Despite numerous discussions between scholars and policymakers, food waste (FW) remains a great concern. European Union alone discards 88 million tons of edible food annually, and when energy, inputs from technosphere and nature, labour, waste management of edible as well as inedible parts are assessed, it amounts to significant environmental and economic impacts. Additionally, food waste is considered a social problem and a matter of food security. Since food waste is a problem of the whole foodstuff supply chain, a holistic approach for its management must be taken. For this reason, an industrial ecology (IE) concept can provide a systemic approach that might be an interesting solution for tackling issues associated with such a biogenic food waste stream. The application of IE brings novelty to the research, because the IE approach is typically used for heavy industry that is concentrated in close proximity. The idea behind the IE approach is to prevent as much food waste as possible, then exploit homogenous sub-products for value added product (either food product or not), and, eventually, to obtain energy (or value added products) via fermentation and produce organic fertilizers of a great agronomical value. The results of investigation showed that numerous prevention and technological solutions can be applied to reduce environmental impact, and when available practises are coupled with IE elements, it brings the management approach close to natural ones. The key IE elements in the model are dematerialization and industrial symbiosis; however, other elements, such as restructuration of energy systems and policy alignment, are also present. As a result of the model application, an economically sound, zero food waste management could be obtained in a region

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Environmental and Economic Performance of Sludge Composting Optimization Alternatives: A Case Study for Thermally Hydrolyzed Anaerobically Digested Sludge

Kliopova

Stunžėnas

Kruopienė

et al. 2022

Water

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Composting is one of the ways to return sewage sludge nutrients to the soil and thus keep them in the economic cycle. This well-known technique is still being developed in search of more advanced, optimal solutions. This study presents the results of an environmental and economic analysis of the sludge treatment processes used in a municipal wastewater treatment plant. The sludge (up to 4700 m3 per day) is subjected to thermal hydrolysis before anaerobic treatment. The energy produced is lower than consumed, mainly since 59% of the digested sludge is also dried. An even bigger problem is that the treated sludge does not meet the criteria for fertilizing products and can only be used for energy forests. Thus, three alternatives for composting thermally hydrolyzed anaerobically treated dewatered sludge with green waste from public areas were researched. The analysis revealed the environmental and economic benefits of such a decision, especially when using microbial inoculants in open composting and maintaining semi-anaerobic conditions. An increase in humic acids (by 63.4%) and total nitrogen (by 21.8%) concentrations, a minimization of NH3 emissions (by 26.6%), and the lowest cost price (53 EUR tonne−1 of sludge dry matter) are among the benefits.

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