论文信息 - Mass-Balance Analysis of Anaerobically Decomposed Refuse

Mass-Balance Analysis of Anaerobically Decomposed Refuse

Methane production from the decomposition of municipal refuse is well documented. However, there is little information on the extent to which the chemical constituents of refuse degrade. Decomposition of shredded municipal refuse was studied under laboratory conditions with leachate recycle and neutralization. Containers were destructively sampled weekly for solids analysis. Cellulose and hemicellulose accounted for 91% of the methane potential of municipal refuse. Mineralization of 71% of the cellulose and 77% of the hemicellulose was measured in a container sampled after 111 days. The average carbon recovery obtained from mass balances on the decomposed refuse was 88.4% with a range of 64–111%. The measured methane yield was between 77 L and 107 L CH\d4 per dry kg of refuse. Mass balances suggested that the yield may be as high as 152 L CH\d4 per dry kg of refuse. Mass balances also showed an imbalance between the soluble sugar concentration of fresh refuse and the mass of terminal electron acceptors (oxygen and nitrate) available for sugar oxidation to carbon dioxide. This imbalance explained an observed decrease in refuse pH and the accumulation of carboxylic acids shortly after the initial incubation.

[1] J. Martín,et al. Biodegradation of Organic Residues in Soil , 1986 .

[2] Bryan M. Jenkins,et al. Fuel gas enhancement by controlled landfilling of municipal solid waste , 1981 .

[3] Robert K. Ham,et al. Inhibition of methane formation from municipal refuse in laboratory scale lysimeters , 1989 .

[4] F. Rovers,et al. Gas production during refuse decomposition , 1973 .

[5] R. Ham,et al. Temperature effects: methane generation from landfill samples , 1982 .

[6] L. Young,et al. The fate of lignin and lignin‐derived compounds in anaerobic environments , 1987 .

[7] W. Owen,et al. Fundamentals of Anaerobic Digestion of Wastewater Sludges , 1986 .

[8] R. K. Ham,et al. Bacterial Population Development and Chemical Characteristics of Refuse Decomposition in a Simulated Sanitary Landfill , 1989, Applied and environmental microbiology.

[9] M. J. Effland,et al. An Analysis of the Wood Sugar Assay Using HPLC: A Comparison with Paper Chromatography , 1984 .

[10] M. P. Bryant,et al. Basic Principles of Bioconversions in Anaerobic Digestion and Methanogenesis , 1981 .

[11] Robert K. Ham,et al. 3.1 – Measurement and Prediction of Landfill Gas Quality and Quantity , 1968 .