Efficient Storage of Methane in Hydrate Form Using Soybean Powder

Methane Pub Date : 2022-08-18 DOI:10.3390/methane1030016

Rama Rao Ganteda, Sai Kiran Burla, Jagan Mohan Reddy Boggu, P. Prasad

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引用次数: 5

Abstract

Natural gas is a promising future source for the increasing energy demand. It is partially clean energy with fewer environmental impacts, and it is necessary to develop technologies to cater to the supply chain. Due to their inherent structural properties, gas hydrates or clathrate hydrates are promising materials for capturing and storing methane gas. In the present study, the experimental investigations were performed to assess the utilization of soybean powder (SBP) as a promoting additive compared to sodium dodecyl sulfate (SDS) for methane hydrate formation. The methane hydrate formation temperature and pressure with SBP are 277.8 ± 3.2 K, 7050.9 ± 76.2 kPa, similar to SDS 277.2 ± 0.3 K, 7446.3 ± 5.7 kPa in the non-stirred system. The gas uptake capacity is about 94.2 ± 4.5 v/v and 92.4 ± 4.6 v/v with SBP and SDS, which is ~60% of the practical, achievable limit. The time for the 90% of hydrate conversion is ~4.6 times higher for SBP than SDS. The more prolonged kinetics is ascribed to the complex constituents in the SBP. In contrast to the SDS solution, no foam was produced in the sample of the SBP solution. The current studies demonstrate that SBP can be utilized to develop cleaner and more effective promoters for methane hydrate formation without foam creation.

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利用豆粉高效储存水合物甲烷

对于日益增长的能源需求来说，天然气是一种很有前途的未来能源。它是部分清洁能源，对环境的影响较小，有必要开发符合供应链的技术。由于其固有的结构特性，天然气水合物或包合物水合物是捕获和储存甲烷气体的有前途的材料。在本研究中，进行了实验研究，以评估与十二烷基硫酸钠（SDS）相比，大豆粉（SBP）作为促进甲烷水合物形成的添加剂的利用率。SBP的甲烷水合物形成温度和压力分别为277.8±3.2K、7050.9±76.2kPa，与非搅拌系统中的SDS 277.2±0.3K、7446.3±5.7kPa相似。SBP和SDS的气体吸收能力分别为94.2±4.5v/v和92.4±4.6v/v，约为实际可达到极限的60%。SBP的90%水合物转化时间是SDS的约4.6倍。SBP中的复杂成分导致了更长的动力学。与SDS溶液相比，SBP溶液的样品中没有产生泡沫。目前的研究表明，SBP可以用于开发更清洁、更有效的甲烷水合物形成促进剂，而不会产生泡沫。

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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Methane

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