Performance evaluation of gaseous emissions and Zn speciation during Zn-rich antibiotic manufacturing wastes and pig manure composting

Junchao Zhao; Xining Sun; Mukesh Kumar Awasthi; Quan Wang; Xiuna Ren; Ronghua Li; Hongyu Chen; Meijing Wang; Tao Liu; Zengqiang Zhang

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Performance evaluation of gaseous emissions and Zn speciation during Zn-rich antibiotic manufacturing wastes and pig manure composting

机译：富含抗生素制造废弃物和猪粪堆肥气体排放和Zn格式的性能评价

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In this study, the co-composting performance of Zn-rich antibiotic manufacturing wastes (AMW) and pig manure (PM) was evaluated. Four treatments, representing 2.5%, 5%, 10% and 20% of AMW (of PM dry weight) and control without AMW, were established during composting. Results suggested that the temperature, pH, electrical conductivity, NH4+-N and germination index in end product met the maturity and sanitation requirement. More than 99% of residual antibiotic was removed. Compared with PM composting alone, the cumulative CH4and N2O emissions in AMW composting increased by 13.46–79.00% and 10.78–65.12%, respectively. While the higher mixing ratios of AMW (10% and 20%) presented a negative impact on composing by inhibiting organic matter (OM) degradation and higher NH3emissions. The AMW had highly bioavailable Zn, but the exchangeable faction of Zn significantly decreased with the composting progress.

机译：在这项研究中，评估了富含富含抗生素制造废物（AMW）和猪粪（PM）的共堆肥性能。在堆肥期间建立了四种治疗，代表2.5％，5％，10％和20％的AMW（PM干重）和控制，无需AMW。结果表明，最终产品中的温度，pH，电导率，NH4 + -N和萌发指数达到了成熟度和卫生要求。除去超过99％的残留抗生素。与PM堆肥单独相比，AMW堆肥中的累积CH4和N2O排放分别增加了13.46-79.00％和10.78-65.12％。虽然AMW的更高混合比（10％和20％）对通过抑制有机物质（OM）降解和更高的NH 3 emissions来对作曲产生负面影响。 AMW具有高度生物可利用的Zn，但Zn的可交换派系随着堆肥的进展而显着降低。

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《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies》 |2018年第2018期|共8页
作者
Junchao Zhao; Xining Sun; Mukesh Kumar Awasthi; Quan Wang; Xiuna Ren; Ronghua Li; Hongyu Chen; Meijing Wang; Tao Liu; Zengqiang Zhang;
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作者单位

College of Natural Resources and Environment Northwest A&

F University;

College of Natural Resources and Environment Northwest A&

F University;

College of Natural Resources and Environment Northwest A&

F University;

College of Natural Resources and Environment Northwest A&

F University;

College of Natural Resources and Environment Northwest A&

F University;

College of Natural Resources and Environment Northwest A&

F University;

College of Natural Resources and Environment Northwest A&

F University;

College of Natural Resources and Environment Northwest A&

F University;

College of Natural Resources and Environment Northwest A&

F University;

College of Natural Resources and Environment Northwest A&

F University;

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原文格式 PDF
正文语种 eng
中图分类生物科学;
关键词
Zn-rich antibiotic manufacturing wastes; Pig manure; Composting; Zinc speciation; Gaseous emissions;

机译：富含抗生素制造废物;猪粪;堆肥;锌形状;气体排放;

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Performance evaluation of gaseous emissions and Zn speciation during Zn-rich antibiotic manufacturing wastes and pig manure composting

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