A biochemical-thermo-hydro-mechanical coupling of degradable soils

Japanese Geotechnical Society Special Publication Pub Date : 2021-10-12 DOI:10.3208/jgssp.v09.cpeg050

Li Ke, X. Wenjie, Chen Yunmin

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Abstract

A general framework of coupled biochemical-thermo-hydro-mechanical (THMBC) processes has been developed to analyze the complex phenomena in degradable soils, such as municipal solid and natural gas hydrate, whose solid skeleton can be decomposed by biological or chemical reactions. The frame contains the linear momentum equilibrium equation, the mass conservation equations for the liquid and gas phases, the energy conservation equation. The evaporation and condensation of water, and the dissolution of gas in water are considered in the mass conservation equation of the fluid. The biochemical reaction rate can be used to link the source and sink terms of the fluid with solid mass loss, meanwhile to give a quantitative description of changes in porosity and strain. The impact of the solid mass loss and the porosity change on the hydro-mechanical properties are involved. As a case study, a model describing the coupling process of landfilled MSW was proposed. In this model, the constitutive model considering the influence of degradation was used, and the degradation chemical formula of the degradable component was given. The results of CAR1 experiment were compared with numerical simulations.

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可降解土壤的生物化学-热-水-机械耦合

建立了生化-热-水-机械(THMBC)耦合过程的总体框架，用于分析可降解土壤中的复杂现象，如城市固体和天然气水合物，其固体骨架可以通过生物或化学反应分解。这个框架包含线性动量平衡方程，液相和气相的质量守恒方程，能量守恒方程。在流体的质量守恒方程中考虑了水的蒸发和冷凝以及气体在水中的溶解。生化反应速率可以将流体的源汇项与固体质量损失联系起来，同时定量描述孔隙率和应变的变化。研究了固体质量损失和孔隙率变化对水力学性能的影响。以垃圾填埋场为例，提出了一个描述垃圾填埋场耦合过程的模型。该模型采用考虑降解影响的本构模型，给出了可降解组分的降解化学式。将CAR1试验结果与数值模拟结果进行了比较。

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Japanese Geotechnical Society Special Publication

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