The motivation for this study was the potential of arginine, glycine and valine to be examined as promoter or inhibitor on methane (95%)–propane (5%) hydrate formation and the examination of which flow is better for hydrate formation. The experimental outcomes indicated that glycine can be used as inhibitor while valine and arginine can be used as promoters. Rushton turbine experiments had higher values in rates of hydrate formation compared to pitched blade turbines with percentage difference of 4.3% and 4.93% between RT vs PBTU and RT vs PBTD, showing that radial flow creates better conditions for hydrate formation.

中文翻译：

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精氨酸、甘氨酸和缬氨酸对甲烷 (95%)-丙烷 (5%) 水合物形成的动力学分析

本研究的动机是精氨酸、甘氨酸和缬氨酸作为甲烷 (95%)-丙烷 (5%) 水合物形成的促进剂或抑制剂被检查的潜力，以及检查哪种流动更有利于水合物形成。实验结果表明甘氨酸可以作为抑制剂，缬氨酸和精氨酸可以作为促进剂。与斜叶涡轮机相比，Rushton 涡轮机实验的水合物形成速率值更高，RT 与 PBTU 和 RT 与 PBTD 之间的百分比差异为 4.3% 和 4.93%，表明径向流为水合物形成创造了更好的条件。