A multi-phase, multi-component model for coupled processes in anaerobic landfills: theory, implementation and validation

To describe the long-term coupled behaviour of landfilled municipal solid waste (MSW), this paper proposes a numerical model based on the theories of the conservation of mass, momentum and energy of porous media over a three-phase solid–liquid–gas system. Compared with currently available coupled mo...

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Veröffentlicht in:	Géotechnique 2021-09, Vol.71 (9), p.826-842
Hauptverfasser:	Lu, Shi-Feng, Feng, Shi-Jin, Zheng, Qi-Teng, Bai, Zhen-Bai
Format:	Artikel
Sprache:	eng
Schlagworte:	Anaerobic processes Conservation of mass Constitutive relationships Energy conservation Evaporation Finite volume method Gas-liquid systems Gas-liquid-solid systems Iterative methods Landfill Landfill gas Landfills Leachates Liquid phases Mathematical models Momentum Municipal solid waste Municipal waste management Numerical models Porous media Simulation Solid waste management Solutes Temporal variations Vapor phases Waste disposal sites
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creator	Lu, Shi-Feng Feng, Shi-Jin Zheng, Qi-Teng Bai, Zhen-Bai
description	To describe the long-term coupled behaviour of landfilled municipal solid waste (MSW), this paper proposes a numerical model based on the theories of the conservation of mass, momentum and energy of porous media over a three-phase solid–liquid–gas system. Compared with currently available coupled models, the proposed model can simultaneously simulate such physical processes as phase change, dissolution of the gas phase, the diffusion of its components, evaporation in the liquid phase and changes in the pH of leachate, as well as its solute migration. The finite-volume method was used to numerically discretise the governing equations, with a sequentially iterative technique used for the numerical model of the solution. The corresponding computer code was formulated on the open-source platform OpenFoam. The model was then used to simulate the famous MSW degradation consolidating anaerobic reactor experiment conducted at Southampton University, where the results generally agreed well with the experimental data. The proposed model was also applied to capture spatial and temporal variations in the skeleton of MSW, leachate and landfill gas in a simplified two-dimensional landfill. Overall, the work here provides a basic coupled framework for simulating the long-term behaviours of landfilled MSW. It can be improved upon in future research by implementing other, more reasonable, constitutive relations of MSW.
doi_str_mv	10.1680/jgeot.20.P.002
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Compared with currently available coupled models, the proposed model can simultaneously simulate such physical processes as phase change, dissolution of the gas phase, the diffusion of its components, evaporation in the liquid phase and changes in the pH of leachate, as well as its solute migration. The finite-volume method was used to numerically discretise the governing equations, with a sequentially iterative technique used for the numerical model of the solution. The corresponding computer code was formulated on the open-source platform OpenFoam. The model was then used to simulate the famous MSW degradation consolidating anaerobic reactor experiment conducted at Southampton University, where the results generally agreed well with the experimental data. The proposed model was also applied to capture spatial and temporal variations in the skeleton of MSW, leachate and landfill gas in a simplified two-dimensional landfill. 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subjects	Anaerobic processes Conservation of mass Constitutive relationships Energy conservation Evaporation Finite volume method Gas-liquid systems Gas-liquid-solid systems Iterative methods Landfill Landfill gas Landfills Leachates Liquid phases Mathematical models Momentum Municipal solid waste Municipal waste management Numerical models Porous media Simulation Solid waste management Solutes Temporal variations Vapor phases Waste disposal sites
title	A multi-phase, multi-component model for coupled processes in anaerobic landfills: theory, implementation and validation
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