figshare
Browse

Improvement of Methane Hydrate Formation Using Biofriendly Amino Acids for Natural Gas Storage Applications: Kinetic and Morphology Insights

Download (54.37 MB)
media
posted on 2022-10-07, 19:48 authored by Chuvich Chaovarin, Viphada Yodpetch, Katipot Inkong, Hari Prakash Veluswamy, Santi Kulprathipanja, Praveen Linga, Pramoch Rangsunvigit
Solidified natural gas is an appealing option for storing natural gas in the form of clathrate hydrates. However, it has some limitations, particularly the slow rate of hydrate formation and the requirement for severe operating conditions. To overcome these constraints, one approach is to introduce promoters into the system to enhance the hydrate formation rate. Amino acids have been reported as kinetic promoters with the potential to improve the methane hydrate formation. In this work, the effect of three different side-chain amino acids (l-methionine, l-leucine, and l-valine) on methane hydrate formation and dissociation was investigated in terms of kinetics and morphology. The experiments were conducted at 8 MPa and 277.2 K using a hybrid combinatorial reactor approach at various amino acid concentrations (0.10 to 1.00). The results showed that the presence of amino acids significantly decreased the induction time and increased the rate of methane hydrate formation. In addition, l-methionine was shown to be the most effective as a kinetic promoter in this work. However, the final methane uptake and the water to hydrate conversion were the same in all experiments. For all the investigated experiments, the morphology of methane hydrate formation exhibited a similar pattern, including methane bubbles and capillary channels. In terms of hydrate dissociation, methane recovery was greater than 95% in all studies, and no foam was generated during hydrate dissociation, which is favorable for large-scale applications.

History