Litcius/Paper detail

Temperature Effect on Undrained Mechanical Properties of Hydrate-Bearing Clayey Silts in the South China Sea

Lei Wang, Shi Shen, Zhaoran Wu, Pengyu Chen, Yanghui Li

2023Energy & Fuels12 citationsDOI

Abstract

Nearly 90% of hydrate resources are found in low-permeability and fine-grained soils, which requires investigation on the undrained mechanical characteristics of hydrate-bearing fine-grained soils (HBFGSs) to accomplish safe and efficient hydrate exploitation. Additionally, factors such as hydrothermal and geothermal gradients of the marine sediments and hydrate extraction by heat injection method simultaneously require an understanding of the temperature effect on the stability of HBFGSs and overburden hydrate-free sediments. For these reasons, this study conducted consolidated undrained (CU) triaxial experiments on water-saturated hydrate-free and hydrate-bearing clayey silts in the South China Sea (SCS) at different temperatures and presented results of temperature effects on undrained mechanical properties. This paper reveals the following and analyzes the reasons accordingly: (1) the failure strength of the hydrate-free clayey silts increases with temperature, whereas the failure strength of hydrate-bearing clayey silts decreases with temperature; (2) the temperature has almost no effect on the fitting line of end-of-test data for undrained shear of hydrate-free clayey silts in p ′– q space; and (3) the presence of hydrates has a considerable influence on the excess pore pressure response and effective stress paths of clayey silts. The results will contribute to the understanding of the influences of environmental changes and hydrate extraction by thermal injection on the stability of hydrate reservoirs in the SCS.

Topics & Concepts

HydrateGeotechnical engineeringPore water pressureSiltGeologyClathrate hydrateEffective stressPermeability (electromagnetism)GeomorphologyChemistryBiochemistryMembraneOrganic chemistryMethane Hydrates and Related PhenomenaHydrocarbon exploration and reservoir analysisCO2 Sequestration and Geologic Interactions