摘要
以中药渣与城市污泥为原料进行共堆肥实验,考察了不同物料质量配比与中药渣不同时间投加条件下,堆体在堆肥过程中温度、有机质、挥发氨、蛋白酶活性等理化指标的变化情况,确定了最佳的物料质量配比与中药渣投加时间;同时探讨了中药渣投加对堆肥过程中溶解性有机质(DOM)及微生物群落结构的影响.结果表明,中药渣作为外加碳源投加后(60 g中药渣+300 g污泥),提高了堆体的温度,减少了氨的挥发,且提高了堆体中蛋白酶的活性,氨的挥发量减少了35.9%,蛋白酶的含量提高了80.5%.同时中药渣可作为调理剂,在堆肥前期投加,促进了有机质的降解,从而加快了堆肥的进程.而通过对DOM的紫外-可见和荧光光谱特征分析表明,投加中药渣有利于提高堆肥的腐殖化程度;同时通过磷脂脂肪酸(PLFA)分析可以发现,投加中药渣后使得堆体中革兰氏阴性菌与真菌的数量有所提高.
With Chinese medicinal herbal residues and municipal sludge as raw materials for co-composting experiment,the effect of the material ratio and addition time of Chinese medicinal herbal residues on the composting efficiency were investigated,including the change of the temperature,organic matter,ammonia nitrogen,and activity of protease. The best composting conditions were determined based on the results. The experimental results showed that the temperature of the pile was raised in the presence of 60 g Chinese medicinal herbal residues as carbon source and 300 g municipal sludge,the ammonia volatilization was reduced and the activity of protease was improved. The ammonia volatilization was reduced by 35. 9% and the activity of protease was increased by 80. 5% in 15 d,respectively. Especially,in the early stage,addition of Chinese medicinal herbal residues as conditioner could increase the organic matter degradation. Thus,the composting process was accelerated. Changes in the UV-visible and fluorescence characteristics of dissolved organic matter( DOM) during the co-composting process were discussed. The treatment with Chinese medicinal herbal residues improved the maturity of the compost. Moreover,phospholipid fatty acid( PLFA) method was used to estimate the microbial community structure changes. It showed that the number of microbial community such as fungi and Gram negative bacteria increased with addition of Chinese medicinal herbal residues.
出处
《环境科学》
EI
CAS
CSCD
北大核心
2016年第10期4062-4068,共7页
Environmental Science
基金
广西高校科学技术研究项目(KY2015ZD018)
岩溶生态与环境变化研究广西高校重点实验室资助项目(YRHJ15Z006)
关键词
中药渣
城市污泥
共堆肥
氮损失
溶解性有机质
Chinese medicinal herbal residues
urban sludge
co-composting
nitrogen loss
dissolved organic matter
