Journal
WASTE MANAGEMENT & RESEARCH
Volume 41, Issue 1, Pages 143-154Publisher
SAGE PUBLICATIONS LTD
DOI: 10.1177/0734242X221103936
Keywords
Food waste; scavenging insects; composting; resource regeneration; economic return
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The full-scale black soldier fly larvae (BSFL) bioconversion system in Hangzhou, China, proved to be a promising solution for converting domestic biodegradable wastes into valuable resources. The study demonstrated the feasibility and economic benefits of this technology.
Domestic biodegradable wastes (DBW) pose a threat to environmental quality and human health. Bioconversion via black soldier fly larvae (BSFL; Hermitia illucens L.) is an expedient way for converting 'waste to resource' (insect protein and biofertilizer). Although researches abounded in laboratory-reared experiments and bioconversion mechanisms were pertinent, the void of data from actual and full-scale operation restricts the intensification of BSFL technology and its global adoption. Hence, a full-scale BSFL bioconversion system lasting 4 years in Hangzhou (China) was investigated, and the feasibility and efficiency of 15 tonnes of DBW per day were studied. Through continuous technical optimization, the average production of fresh larvae was increased from 8.5% in 2017 to 15.3% in 2020, along with bioconversion rate of final vermicompost decreased from 35.4% to 14.5%. The total biomass reduction rate in 2020 was 68.7 +/- 17.4 kg/(m(3) d), equivalent to 0.735 +/- 0.215 kg/(kg d) in the form of fresh larvae. Crude fat in fresh larvae accounted for 13.4%, and crude protein accounted for 16.2% in which the determined amino acid profile bore a strong resemblance to fish meal only except histidine and tyrosine. Its economic benefits proved the feasibility of this technology, and the profit reached up to 35.9 US$ per tonne of DBW in 2019. In conclusion, BSFL bioconversion system under current 'insect-farm' operation was a promising solution for DBW treatment with value-added waste recycling.
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