2014
DOI: 10.4172/2155-6199.1000222
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Time Efficient Co-composting of Water Hyacinth and Industrial Wastes by Microbial Degradation and Subsequent Vermicomposting

Abstract: Time efficient co-composting of distillery and paint sludge industrial wastes with 2:1:1 ratio of water hyacinth, cow-dung and saw-dust in combination with Trichoderma viride, Phanerochaete chrysosporium, Bacillus cereus and earthworms was done. The decrease in MC, TOC and C:N ratio and increase in temperature, TKN, pH, TK, TP was significant. Out of five treatments, DS3 (60% distillery sludge) and DS4 (80% distillery sludge) treatments were stable and matured with C:N ratio of 18.68 ± 1.1 and 14.73 ± 1.12 res… Show more

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Cited by 5 publications
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“…The strong respiratory and metabolic activity of the microbes improved the dissipation and utilization of moisture [24]. During the composting process, the MC is considered as an important indicator to be regulated as it influences the structure and thermal property of the compost materials, microorganism activities and OM biodegradation [29]. As shown in Figure 1b, the initial MCs in different treatments during KW composting with ingredients were 51.38% (T1), 50.67% (T2), 49.10% (T3), and 49.55% (T4), respectively.…”
Section: Changes In Temperature and Moisture Contentmentioning
confidence: 99%
“…The strong respiratory and metabolic activity of the microbes improved the dissipation and utilization of moisture [24]. During the composting process, the MC is considered as an important indicator to be regulated as it influences the structure and thermal property of the compost materials, microorganism activities and OM biodegradation [29]. As shown in Figure 1b, the initial MCs in different treatments during KW composting with ingredients were 51.38% (T1), 50.67% (T2), 49.10% (T3), and 49.55% (T4), respectively.…”
Section: Changes In Temperature and Moisture Contentmentioning
confidence: 99%