Article ID: | iaor201110353 |
Volume: | 31 |
Issue: | 12 |
Start Page Number: | 2473 |
End Page Number: | 2483 |
Publication Date: | Dec 2011 |
Journal: | Waste Management |
Authors: | Liu Xiaodong, Shi Jianyong, Qian Xuede, Hu Yadong, Peng Gongxun |
Keywords: | simulation: applications, urban affairs, biology |
A new model entitled the coupled mechanical‐hydraulic‐gaseous effect and biochemical degradation for municipal solid waste (MSW) is proposed to simulate and predict the MSW settlement in this study. The coupled model can be used to simulate and predict the distributions of gas and water pressure as well as total waste settlement. Model verification indicates that because of degradation, the excess pore gas pressure increases rapidly and reaches a peak value in a short time, and then it dissipates gradually. But the excess pore water pressure may not always increase at the beginning, which depends on hydraulic conductivity of MSW. Dissipation of the excess pore water pressure is slower than that of the excess pore gas pressure. A waste settlement experiment was conducted in the laboratory using a synthetic MSW. The data was used to verify the developed model, which gave satisfactory results. Based on the experimental results, a new formula is proposed to simulate biochemical degradation.