Hydrate formation characteristics and hydrodynamic behavior have been investigated for mixture of methane–propane hydrate formation with pure water and with the amino acid of lysine 1.5 wt% at 24.5 bars and 2 °C. There were total 12 experiments with full and no baffle estimating the induction time, rate of hydrate formation, hydrate productivity and power consumption. The outcomes showed that radial flow experiments with radial flow have better behavior compared to mixed flow ones due to better interaction between gas and liquid. Furthermore, lysine experiments formed hydrates more quickly compared to pure water experiments showing that lysine functions as promoter and not as inhibitor. RT experiments consume more energy compared to PBT ones, while induction time is always smaller in RT experiments compared to PBT ones.

在24.5 bar和2°C下，研究了甲烷-丙烷水合物与纯水和1.5 wt％赖氨酸氨基酸的混合物的水合物形成特性和流体力学行为。总共有12个实验在没有挡板的情况下估计诱导时间，水合物形成速率，水合物生产率和功耗。结果表明，由于气体和液体之间的更好的相互作用，与混合流相比，径向流的径向流实验具有更好的性能。此外，与纯水实验相比，赖氨酸实验形成水合物的速度更快，这表明赖氨酸起促进剂的作用，而不起抑制剂的作用。与PBT相比，RT实验消耗的能量更多，而与PBT相比，RT实验的诱导时间总是更短。