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Effects of aeration and season of the year on fish waste composting and compost quality.

Ana Carolina Amorim OrricoJuliana Dias de OliveiraBrenda Kelly Viana LeiteRanielle Nogueira da Silva VilelaMarco Antonio Previdelli Orrico JuniorRusbel Raul Ascpilcueta BorquisMichely TomaziIsabelly Alencar Macena
Published in: Environmental technology (2023)
Employing forced aeration (FA) in composting static windrows (SW) from fish waste (FW) has the potential to enhance the development of process and, organic fertiliser quality. However, due to the impact of season, the FA may lead to excessive drying of SW and, difficulty in thermophilic temperature maintenance. The aim of this study was to assess the effects of passive aeration (PA) and FA on the composting of FW in SW during the summer and winter seasons. The temperatures of the windrows remained within the thermophilic range for most of the composting period, with peak temperatures observed shortly after starting and turning the windrows (at 50 and 70 days). The aeration benefited the initial TS degradations, resulting in 86.66 and 45.99% of the TS total reduced to FA and PA piles, at 50 days during the winter. The C organic reduction was 77.77 and 76.33% in summer and winter to FA piles, respectively, but this reduction was 59.24% and 67.82% for winter and summer, respectively, in PA windrows. At 50 days, the N reduction in FA piles was already at 70.32% and 71.87% for winter and summer. The volatile solids reductions were significantly higher ( p  < 0.01) in FA piles during the summer. Although the FA has been shown to enhance the organic constituents' degradation during the composting of FW, its adoption was not enough to improve the compost composition. Thus, by conducting piles on a small scale, with the perforated wall, as described in this study, the FA could be dispensed.
Keyphrases
  • sewage sludge
  • municipal solid waste
  • anaerobic digestion
  • antibiotic resistance genes
  • heat stress
  • heavy metals
  • risk assessment
  • climate change
  • weight loss
  • simultaneous determination
  • solid phase extraction