Efficient Degradation of Industrial Biowaste via In-Vessel Composting—Technical and Microbial Assessments

Efficient Degradation of Industrial Biowaste via In-Vessel Composting—Technical and Microbial Assessments

In this study, a pilot-scale in-vessel composter was used to treat a mixture of industrial biowaste, with soybean curd residue and saw dust as the major substrates. The composter is capable of treating up to 350 tons/month of waste, producing up to 150 tons/month of high-quality compost within a ret...

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Bibliographic Details
Main Authors: Jamie Jean Minn Tan, Zi Xiang Keng, Siew Hui Chong, Guan-Ting Pan, Ajit Singh, Christinavimala Supramaniam, Ianatul Khoiroh
Format: Article
Language:English
Published: MDPI AG 2025-01-01
Series:Bioengineering
Subjects:
in-vessel composting
metagenomic
bacterial
fungi
biowaste
compost
Online Access:https://www.mdpi.com/2306-5354/12/1/33
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Summary:In this study, a pilot-scale in-vessel composter was used to treat a mixture of industrial biowaste, with soybean curd residue and saw dust as the major substrates. The composter is capable of treating up to 350 tons/month of waste, producing up to 150 tons/month of high-quality compost within a retention time of 7–10 days. The final compost has an average nitrogen–phosphorus–potassium content of 6%, moisture content of 28%, pH of 6.1, organic matter of 68%, and carbon–nitrogen ratio of 19:1. It also has a good amount of humic acid and macronutrients. Composts from all stages of the composting process—pre-mix, directly after discharge, after one-month of curing, and right before packaging—were evaluated with metagenomic analysis to identify the microbes that may add value to the compost.
ISSN:2306-5354

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