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AGER, 2017, 1(3): 135-147 原创论文 天然气水合物研究

已有 537 次阅读 2018-1-14 17:24 |个人分类:AGER期刊|系统分类:论文交流| 期刊, 水合物, 降压开采, 储层变形

[主要内容] 天然气水合物是一种重要的潜在替代能源,对其进行开采将削弱储层的安全性。本文通过数值模拟探讨了水合物降压开采储层变形规律,分析了变形模量、降压幅度和环境温度等因素的影响关系。获得的结论能够为水合物开采储层安全性评价提供参考。
Advances in Geo-Energy Research期刊, 网址:http://www.astp-agr.com/index.php/Index/Index/detail?id=29


Numerical simulations for analyzing deformation characteristics of hydrate-bearing sediments during depressurization

Lele Liu, Xiaobing Lu, Xuhui Zhang, Changling Liu, Bin Du

(Published: 2017-12-25)


Corresponding Author and Email: Lele Liu, liulele_leo@163.com


Citation: Liu, L., Lu, X., Zhang, X., et al. Numerical simulations for analyzing deformation characteristics of hydrate-bearing sediments during depressurization. Adv. Geo-energ. Res. 2017, 1(3): 135-147, doi: 10.26804/ager.2017.03.01.


Article Type: Original article


Abstract:

Natural gas hydrates have been treated as a potential energy resource for decades. Understanding geomechanical
properties of hydrate-bearing porous media is an essential to protect the safety of individuals and devices during
hydrate production. In this work, a numerical simulator named GrapeFloater is developed to study the deformation
behavior of hydrate-bearing porous media during depressurization, and the numerical simulator couples multiple
processes such as conductive-convective heat transfer, two-phase fluid flow, intrinsic kinetics of hydrate
dissociation, and deformation of solid skeleton. Then, a depressurization experiment is carried out to validate the
numerical simulator. A parameter sensitivity analysis is performed to discuss the deformation behavior of
hydrate-bearing porous media as well as its effect on production responses. Conclusions are drawn as follows: the
numerical simulator named GrapeFloater predicts the experimental results well; the modulus of hydrate-bearing
porous media has an obvious effect on production responses; final deformation increases with decreasing outlet
pressure; both the depressurization and the modulus decrease during hydrate dissociation contribute to the
deformation of hydrate-bearing porous media.

Keywords: Gas hydrate, hydrate-bearing sediment, geomechanics, depressurization, numerical simulation.


   

Numerical simulations for analyzing deformation characteristics of hydrate-beari.pdf



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