稳定条件下含天然气水合物沉积物的三轴试验系统

C. Kang, A. Kim, G. Cho, J. Lee
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引用次数: 0

摘要

在海床下,天然气水合物作为由水和气体分子组成的固体物质被埋在地下。气体水合物的解离使固相气体水合物转变为气相和液相,从而引起力学性能的变化。由于天然气水合物的解离作用,含气沉积物会发生坍塌或沉降。三轴试验是评价土力学特性的一种方法。对试件施加围应力模拟土的原位状态,施加轴向载荷诱导剪切破坏。模量值可以通过施加载荷与应变水平之间的关系推导出来。根据不同的围应力条件,可根据峰值强度值求得粘聚角和摩擦角。对于含天然气水合物的沉积物,其力学性质受天然气水合物胶结作用的影响。因此,需要对含天然气水合物沉积物的力学特性进行实验研究,以了解沉积物的力学行为。然而,在实验过程中,需要高压和低温条件来保持天然气水合物的稳定状态。三轴试验应在天然气水合物稳定环境下进行。在本研究中,为了模拟含天然气水合物的沉积物,我们构建了一个可以在高压低温环境下进行三轴试验的系统。然后,利用含气水合物沉积物样品进行了三轴试验。从三轴试验中获得的力学性能可以用作模拟天然气水合物解离过程的数值分析的输入参数。
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Triaxial Test System for Gas Hydrate-Bearing Sediments with Stable Conditions
Under the seabed, gas hydrates are buried as solid materials that consist of water and gas molecules. Dissociation of gas hydrates induce mechanical properties change because solid-phase gas hydrates transformed to gas and liquid phase. Due to dissociation of gas hydrates, the bearing sediments can be collapsed or subsided. The triaxial test is a method for evaluating the mechanical properties of soil. Confining stress is applied to the specimen for simulating in-situ condition of the soil and axial loading is applied to induce shear failure. The modulus value can be derived through the relationship between the applying load and the strain level. Also cohesion and friction angle can be obtained based on the peak strength value according to various conditions of the confining stress. In the case of gas hydrate-bearing sediments, the mechanical properties change by the cementation effect of the gas hydrates. Therefore, experimental research for mechanical properties of gas hydrate-bearing sediments are required to understand mechanical behaviors of the sediments. However, high pressure and low temperature conditions are necessary to maintain stable condition of gas hydrates during the experiments. The triaxial tests should be conducted under the gas hydrate stable environment. In this study, in order to simulate the gas hydrate-bearing sediments, we constructed a system that can perform triaxial tests under high pressure and low temperature environment. Then, triaxial tests were carried out using specimens of gas hydrate-bearing sediments. Mechanical properties that achieved from the triaxial tests can be used as input parameters for the numerical analysis, which simulate the gas hydrate dissociation process.
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