摘要
对于麦秸、牛粪和鸡粪为原料的堆肥系统,通过翻堆和强制通气实现微好氧和好氧处理,测定了各种发酵参数的变化.结果表明,微好氧处理堆体内氧浓度始终小于1.5%,而通气处理堆体的氧浓度始终在4%以上;微好氧处理50℃以上高温期为23d,比通气处理多6d,而通气虽然高温期短但后期温度下降慢;微好氧处理的半纤维素含量从发酵开始时的13.86%下降到堆肥结束时的7.99%。纤维素含量由21.45%下降到16.07%,而通气处理最终半纤维素含量为8.50%,纤维素含量由21.45%下降到18.02%;从各种成分的下降曲线看,微好氧处理为一次下降。而通气处理基本为缓慢的2峰曲线.从硝酸根浓度、温度和C/N综合评价产物的腐熟度。微好氧处理进入腐熟约经35d,而通气处理经45~50d才进入腐熟.富集培养堆肥样品的试验证明0.01~0.05mg/L的微好氧和50~60℃高温是纤维素分解的最适宜条件.
The effect of oxygen concentrations was evaluated during the decomposition of some selected organic materials under a controlled condition composting process for a period of 60 days. Mixtures of cattle manure, chicken manure, and wheat straw at a 1 : 3 : 6 ratio were used in the experiment. Micro-aerobic treatment was attained by turning of heap at a frequency of one time each two days, while forced air was applied under aerobic treatment. Results showed that concentration of oxygen under mlcro-aerobic treatment was significantly lower than that of the aerobic treatment by 1.5 % in all composting periods. The duration of thermophilic phase more than 50℃ of micro-aerobic treatment was 23 days, and was 6 days more than that of the aerobic. On the other hand, the decreasing of temperature of the aerobic treatment is slow. The concentration of hemicellulose and cellulose of the micro-aerobic treatment was decreased from the 13.86% and 21.45 % to 7,99 % and 16.07%, respectively. Under the aerobic treatment, only decreased to 8.50 % and 18.02 %, respectively. A marked compost maturity was noted under the micro-aerobic treatment than under the aerobic treatment as indicated by C/N, NO3^- ion, and temperature profiles. The optimal condition of cellulose degrading was micro-aerobic and high temperature between 50℃ and 60℃ proved by microorganism culture coming from the materials of the thermophilic phase.
出处
《环境科学》
EI
CAS
CSCD
北大核心
2006年第3期594-598,共5页
Environmental Science
基金
国家高技术研究发展计划(863)项目(2002AA245031)
国家'十五'科技攻关计划项目(2002BA516A03)
关键词
微好氧
通气
堆肥化
木质纤维素
micro-aerobic
forced aeration
composting
lignocellulose
