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混合堆肥过程中挥发性固体含量的层次效应及动态变化 被引量:12

Stratification of Volatile Solid Content and Its Dynamics in the Process of Co-composting
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摘要 城市污泥与猪粪混合堆肥表明 :升温期和高温期堆体上部有机物降解的差异较大 ,降温期堆体下部各层有机物降解的差异较大 ,且堆体内挥发性固体 (VS)含量已形成明显的层次效应 ,腐熟期堆体中部有机物降解的差异较大 ,堆体内VS含量的层次效应仍很明显 ;不同堆肥期堆体内VS含量的差异由大到小分别为 :降温期≥腐熟期 >高温期 >升温期 ,不同部位有机物降解程度由大到小为 :上部 >中部 >下部 ;VS含量随时间的变化满足一级反应动力学方程 ,城市污泥和猪粪混合堆肥过程中VS的降解速率约为 0 3kg·d-1,VS含量降低了 8 2 % . Co-composting of sewage sludge and pig manure was conducted and it was indicated that, at the stages of temperature starting and high temperature composting, the difference of organic decomposition in the upper portion was largest among three portions of composting pile. The difference was largest in the lower part of the pile and the stratification effect of volatile solid (VS) content was formed at the stage of cooling, while it was largest in the middle and the stratification effect was still remarkable at the stage of maturity. At different stages of composting, the difference of VS content in the pile was of the order: the cooling≥the maturity>the high temperature>the temperature starting. At each stage of composting, the difference of organic decomposition in the pile was as follows: the upper>the middle>the lower. The change of VS content met with first-order kinetics equation and decomposition rate of VS was 0.3kg·d -1 while average loss of VS content was 8.2% in the whole process of composting.
作者 罗维 陈同斌 高定 郑国砥
机构地区 中国科学院地理科学与资源研究所环境修复室
出处 《环境科学》 EI CAS CSCD 北大核心 2004年第3期155-159,共5页 Environmental Science
基金 国家高技术研究发展计划项目(2001AA645010) 科技部农业科技成果转化资金项目 北京市重点农业科技推广示范项目 中科博联环保高新技术有限责任公司提供资助
关键词 混合堆肥 城市污泥 猪粪 挥发性固体 有机物降解 co-composting sewage sludge pig manure volatile solid content organic decomposition
分类号 X705 [环境科学与工程—环境工程] X713 [环境科学与工程—环境工程]
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参考文献17

  • 1Tiquia S M, Tam N F Y. Co-composting of spent pig litter and sludge with forced-aeration[J]. Bioresource Technology, 2000, 72:1-7.
  • 2Walker L P,Nock T D, Gossett J M, VanderGheynst J S. The role of periodic agitation and water addition in managing moisture limitations during high-solids aerobic decomposition[J]. Process Biochemistry, 1999, 34: 601~612.
  • 3Naylor L M. Composting[J]. Environmental Science and Pollution Series, 1996, 18(69): 193-269.
  • 4Eitzer B D, et al. Emissions of volatile organic chemicals from municipal solid waste composting facilities[J]. Environmental Science and Technology, 1995, 29: 896-902.
  • 5Hamoda M F. Evaluation of municipal solid waste composting kinestics[J]. Resources, Conservation, and Recycling, 1998, 23: 209-223.
  • 6Wiley J S, Asce A M, Pearce G W. A preliminary study of high-rate composting[J]. American Society of Civil Engineering Transactions, 1955, 1009-1034.
  • 7Witter E and Lopez-Real J M. Monitoring the composting process using parameters of composting stability[A]. In: Compost: Production, Quality and Use[C]. London, United Kingdom:Elsevier Applied Science, 1987.
  • 8Liao P H, Vizcarra A T, Chen A, Lo K V. Composting salmon farm mortalities with passive areration[J]. Compost Science and Utilization, 1996, 2(4): 58-66.
  • 9Lynch N J, Cherry R S. Winter composting using the passively aerated windrow system[J]. Compost Science & Utilization, 1996, 4(3): 44-52.
  • 10Brown K H, Bouwkamp J C, Couin F R. The influence of C:P ratio on the biological degradation of municipal solid waste[J]. Compost Science & Utilization, 1998, 6(1): 53-58.

二级参考文献66

  • 1潘学峰,傅泽田,C.H.Burton.发达国家畜禽废物处理技术与立法[J].农业工程学报,1995,11(3):108-113. 被引量:30
  • 2周慧珍,龚子同.土壤空间变异性研究[J].土壤学报,1996,33(3):232-241. 被引量:237
  • 3陈同斌 高定 黄启飞等.一种用于堆肥的自动控制装置[P].中国发明专利申请号CN01120518.0.2001.
  • 4陈同斌 高定 黄泽春等.污泥堆肥自动化控制系统(V1.0)[P].国家版权局软件登记号2001SR0529.2000.
  • 5[1]Lasaridi K E.A simple respirometric technique for assessing compost stability.Water Research,1998,32(12):3717~3723.
  • 6[2]Michel F C,Reddy C A.Effect of oxygenation level on yard trimmings composting rate,odor production,and compost quality in bench scale reactors.Compost Science and Utilization,1998,6(4):6~14.
  • 7[3]Zhou S W,Zaied H and Weghe H.Composting animal excreta-effect on oxygen concentration,on kinetic reaction and on emission behaviour.Landtechnik,1999,54(3):178~179.
  • 8[4]Randle P,Flegg P B.Oxygen measurements in a mushroom compost stack.Scientia Horticulturae,1978,8(4):315~323.
  • 9[5]Hansen C L,Maxfield B.Effectiveness of a drum composter for treating dairy wastes.In:American Society of Agricultural Engineers (ASAE);St Joseph.ASAE CSAE SCGR Annual International Meeting,USA,1999.
  • 10[6]Joshua R S,Macauley B J and Mitchell H J.Characterization of temperature and oxygen profiles in windrow processing systems.Compost Science and Utilization,1998,6(4):15~28.

共引文献128

同被引文献150

引证文献12

二级引证文献92

环境科学
2004年 第3期

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