Enhanced Methane Hydrate Formation Kinetics in Frozen Particles of Biopolymer Solutions: Applicable to Methane Storage

Abstract: Water-soluble polymers have shown dual characteristics either as hydrate promoters (enhanced the rate of gas hydrate formation) or inhibitors (retarded the hydrate formation kinetics). Therefore, in this study, we evaluate the promotional/inhibition effect of the environmentally friendly biodegradable, water-soluble polymers for methane hydrate formation. An unstirred highpressure reactor was used to synthesize methane hydrates of frozen biopolymers. A comparative analysis of the hydrate formation growth for c… Show more

“…Surfactants, amphiphilic molecules, arrange hydrophilic groups in the liquid phase and hydrophobic groups in the gas phase, improving the gas–liquid interplay. Sodium dodecyl sulfate is a potent hydrate promoter, but its foam production during methane hydrate dissociation affects methane recovery. , In the pursuit of environmentally friendly alternatives, research has delved into eco-conscious promoters such as cyclodextrins, amino acids, lignin, soya bean powders, and others. − Given the viability of bio-friendly additives and their significance, novel eco-friendly options like fulvic acid, guar gum, and amino acid derivatives were investigated for their potential in methane gas capture and storage in hydrate form. − …”

Enhancing Methane Storage in Clathrate Hydrates Using Leaf Extract Catalysts: Advancing Sustainable Energy Storage

“…Surfactants, amphiphilic molecules, arrange hydrophilic groups in the liquid phase and hydrophobic groups in the gas phase, improving the gas–liquid interplay. Sodium dodecyl sulfate is a potent hydrate promoter, but its foam production during methane hydrate dissociation affects methane recovery. , In the pursuit of environmentally friendly alternatives, research has delved into eco-conscious promoters such as cyclodextrins, amino acids, lignin, soya bean powders, and others. − Given the viability of bio-friendly additives and their significance, novel eco-friendly options like fulvic acid, guar gum, and amino acid derivatives were investigated for their potential in methane gas capture and storage in hydrate form. − …”

Enhancing Methane Storage in Clathrate Hydrates Using Leaf Extract Catalysts: Advancing Sustainable Energy Storage

Navigating hydrogen storage and transport networks: grid connectivity and storage site logistics

The effect of multi-component Inhibitor systems on hydrate formation