Redirigiendo al acceso original de articulo en 21 segundos...
ARTÍCULO
TITULO

Modeling the Mechanical Behavior of Methane Hydrate-Bearing Sand Using the Equivalent Granular Void Ratio

Jie Shen    
Abraham C. F. Chiu and Charles Wang Wai Ng    

Resumen

For the safe extraction of methane from hydrate reservoirs, modeling the mechanical behavior of the methane hydrate-bearing soil properly is crucial in order to enable designers to analysis hydrate-dissociation-induced geotechnical failures. Hydrate morphology is one of major factors affecting the mechanical behavior of soil containing hydrate. This paper presents a new constitutive model for methane hydrate-bearing sand (MHBS) using the equivalent granular void ratio as a state variable, which can quantify the effects of the pore-filling and load-bearing hydrate morphology under a unifying framework. The proposed model is a combination of generalized plasticity and an elastic damage model so as to take into account the observed frictional and bonding aspects of MHBS, respectively. By using the concept of state-dependent dilatancy, the equivalent granular void ratio is formulated and adopted in the generalized plasticity model. In addition, a nonlinear damage function is implemented to elucidate the degradation of hydrate bonds with respect to shearing. Compared with the basic generalized plasticity model for host sand, only three additional parameters are required to capture key mechanical behaviors of MHBS. By comparing the triaxial test results of MHBS synthesized from a range of host sands with a predicted behavior by the proposed model, it is demonstrated that the new model can satisfactorily capture the stress?strain and volumetric behavior of MHBS under different hydrate saturations, confining pressures, and void ratios.

 Artículos similares

       
 
Alessandro Polla, Giacomo Frulla, Enrico Cestino, Raj Das and Pier Marzocca    
The presented methodology offers the author?s view on how to bridge the gap between the numerical evaluation and physical response of a typical composite panel under high-velocity impact. A rational approach to failure conditions and progressive damage p... ver más
Revista: Aerospace

 
Spencer Funk, Ali Shahbaz Haider, Kush Bubbar and Brad Buckham    
Mooring systems are a critical component of all floating wave energy converter (WEC) systems, yet the impact of amooring system on the WEC dynamics is often neglected during the initial assessment of candidate designs. The purpose of this study was to in... ver más

 
Zaid Abdulhamid Alhulaybi, Muhammad Ali Martuza and Sayeed Rushd    
Polylactic acid (PLA), the second most produced biopolymer, was selected for the fabrication of mixed-matrix membranes (MMMs) via the incorporation of HKUST-1 metal?organic framework (MOF) particles into a PLA matrix with the aim of improving mechanical ... ver más
Revista: ChemEngineering

 
Xiaojie Jiao, Cheng Cheng, Yubing Song, Gang Wang and Linjuan He    
The rock deformation and failure characteristics and mechanisms are very important for stability evaluation and hazard control in rock engineering. The process of rock deformation and failure is often accompanied by temperature changes. It is of great si... ver más
Revista: Applied Sciences

 
Muhammed Alhanouti and Frank Gauterin    
The regeneration of highly dynamic driving maneuvers on vehicle test benches is challenging due to several influences, such as power losses, vibrations in the overall system that involves the vehicle with the test bench, uncertainties in the model parame... ver más
Revista: Applied Sciences