Effect of decomposition water content of natural gas hydrate on permeability and gas production of clay sediments based on numerical simulation

IF 4.9 2区工程技术 Q2 ENERGY & FUELS Journal of Natural Gas Science and Engineering Pub Date : 2022-12-01 DOI:10.1016/j.jngse.2022.104826

Zhaoran Wu , Qingkai Gu , Guijing Li , Zhengkun Zhao , Yanghui Li

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引用次数: 1

Abstract

The solid phase swelling of the clay sediment is related to water from gas hydrate dissociation. Therefore, the relationships among decomposed water content, porosity and effective gas permeability in clay sediment are derived in this paper. A formula for predicting the evolution of effective gas permeability in sediments during clay particle expansion caused by decomposed water content is proposed, which is in good agreement with experimental data. The model of gas production from clay sediments by depressurization is established for the first time, which is verified by gas production rate obtained by gas production experiment. The results show that the porosity and gas phase permeability of clay sediments decrease with the increase of decomposed water content. Then, with the decrease of hydrate saturation, the effect of clay expansion caused by decomposed water content on porosity and gas phase permeability decreases. The amount of decomposed water needed for montmorillonite to expand is less than that of illite. After the gas production rate drops suddenly at 3000s, it could be considered that clay swelling affected by decomposed water basically ends.

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基于数值模拟的天然气水合物分解含水量对粘土沉积物渗透率及产气量的影响

粘土沉积物的固相溶胀与气体水合物解离产生的水有关。因此，本文推导了黏土沉积物中分解含水量与孔隙度和有效渗透率之间的关系。提出了黏土颗粒因含水量分解而膨胀过程中沉积物有效渗透率演化的预测公式，与实验数据吻合较好。首次建立了粘土沉积物降压产气模型，并通过产气实验得到的产气量进行了验证。结果表明:随着分解水含量的增加，粘土沉积物的孔隙度和气相渗透率降低;随着水合物饱和度的降低，分解含水量引起的粘土膨胀对孔隙度和气相渗透率的影响减小。蒙脱石膨胀所需的分解水量小于伊利石。在3000s产气速率突然下降后，可以认为受分解水影响的粘土溶胀基本结束。

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来源期刊

Journal of Natural Gas Science and Engineering ENERGY & FUELS-ENGINEERING, CHEMICAL

CiteScore

8.90

自引率

0.00%

发文量

388

审稿时长

3.6 months

期刊介绍： The objective of the Journal of Natural Gas Science & Engineering is to bridge the gap between the engineering and the science of natural gas by publishing explicitly written articles intelligible to scientists and engineers working in any field of natural gas science and engineering from the reservoir to the market. An attempt is made in all issues to balance the subject matter and to appeal to a broad readership. The Journal of Natural Gas Science & Engineering covers the fields of natural gas exploration, production, processing and transmission in its broadest possible sense. Topics include: origin and accumulation of natural gas; natural gas geochemistry; gas-reservoir engineering; well logging, testing and evaluation; mathematical modelling; enhanced gas recovery; thermodynamics and phase behaviour, gas-reservoir modelling and simulation; natural gas production engineering; primary and enhanced production from unconventional gas resources, subsurface issues related to coalbed methane, tight gas, shale gas, and hydrate production, formation evaluation; exploration methods, multiphase flow and flow assurance issues, novel processing (e.g., subsea) techniques, raw gas transmission methods, gas processing/LNG technologies, sales gas transmission and storage. The Journal of Natural Gas Science & Engineering will also focus on economical, environmental, management and safety issues related to natural gas production, processing and transportation.