堆肥中强化甲烷氧化的诱导：温度和湿度响应

Induction of enhanced methane oxidation in compost: temperature and moisture response.

作者信息

Mor Suman, De Visscher Alex, Ravindra Khaiwal, Dahiya R P, Chandra A, Van Cleemput Oswald

机构信息

Centre for Energy Studies, Indian Institute of Technology Delhi, Hauz Khas, New Delhi-110016, India.

出版信息

Waste Manag. 2006;26(4):381-8. doi: 10.1016/j.wasman.2005.11.005. Epub 2006 Jan 30.

DOI:10.1016/j.wasman.2005.11.005

PMID:16446082

Abstract

Landfilling is one of the most common ways of municipal solid waste disposal. Degradation of organic waste produces CH(4) and other landfill gases that significantly contribute to global warming. However, before entering the atmosphere, part of the produced CH(4) can be oxidised while passing through the landfill cover. In the present study, the oxidation rate of CH(4) was studied with various types of compost as possible landfill cover. The influence of incubation time, moisture content and temperature on the CH(4) oxidation capacity of different types of compost was examined. It was observed that the influence of moisture content and temperature on methane oxidation is time-dependent. Maximum oxidation rates were observed at moisture contents ranging from 45% to 110% (dry weight basis), while the optimum temperature ranged from 15 to 30 degrees C.

摘要

填埋是城市固体废物处理最常见的方式之一。有机废物的降解会产生CH₄和其他填埋气体，这些气体对全球变暖有显著影响。然而，在进入大气之前，部分产生的CH₄在通过填埋覆盖层时会被氧化。在本研究中，以各种类型的堆肥作为可能的填埋覆盖层，研究了CH₄的氧化速率。考察了培养时间、水分含量和温度对不同类型堆肥CH₄氧化能力的影响。结果发现，水分含量和温度对甲烷氧化的影响是随时间变化的。在水分含量为45%至110%（干重基础）范围内观察到最大氧化速率，而最佳温度范围为15至30摄氏度。

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堆肥中强化甲烷氧化的诱导：温度和湿度响应

Induction of enhanced methane oxidation in compost: temperature and moisture response.

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