Influence of SDS on the Growth of Natural Gas Hydrates in a Sand Bed Depending on Saturation and Mineralization of Pore Moisture

Recent Innovations in Chemical Engineering (Formerly Recent Patents on Chemical Engineering) Pub Date : 2024-01-12 DOI:10.2174/0124055204283697231224155414

Aleksey M. Reshetnikov

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Abstract

Evaluate the effect of SDS on induction time and conversion of water to hydrate in a porous medium model depending on the saturation and salinity of pore moisture. The work presents data on the formation of natural gas hydrates in sand bed fraction of 200-500 μm. The silica sand was saturated with water, solutions of SDS or NaCl, or a mixture of these. The saturation was 50% or 100%. The experiments were carried out under isochoric conditions at a temperature of 275 K and an initial pressure of 8 MPa. It was shown that the main hydrate formation occurred in the first 60 minutes. The addition of SDS 0.05-0.2 wt.% in the sand bed does not exhibit a promoting effect, as was previously shown for pure water. The addition of NaCl 3 wt.% reduces the conversion of water to hydrate by 1.6 and 2 times for 50% and 100% saturation of the sand bed. The optimal concentration of the SDS additive to the salt solution has been found to reduce the inhibitory effect of the salt. The data obtained can be used to develop technologies for storing and transporting natural gas using sand and seawater.

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SDS 对砂床中天然气水合物生长的影响取决于孔隙水分的饱和度和矿化度

根据孔隙水分的饱和度和盐度，评估 SDS 对多孔介质模型中的诱导时间和水到水合物的转化的影响。硅砂被水、SDS 或 NaCl 溶液或这些物质的混合物饱和。饱和度为 50%或 100%。实验在等温条件下进行，温度为 275 K，初始压力为 8 MPa。在砂床中加入 0.05-0.2 wt.%的 SDS 不会产生促进作用，这与之前纯水的情况相同。盐溶液中 SDS 添加剂的最佳浓度可减少盐的抑制作用。所获得的数据可用于开发利用沙子和海水储存和运输天然气的技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Recent Innovations in Chemical Engineering (Formerly Recent Patents on Chemical Engineering)

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