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ABSTRACT
The effects of a typical anti-agglomerant, sorbitan monooleate (Span80), on the interactions between cyclopentane (CyC5) hydrate particles and water droplets were investigated using a micromechanical force (MMF) apparatus. The concentration of Span80 in CyC5 was ranged from 0.01 wt% to 1 wt%, and the experimental temperature was set at 1.5°C and 7°C, respectively. The results indicate that the absorption of Span80 on the droplet surface can render the interfaces more stable, preventing hydrate agglomeration. When the preload/contact force exceeds the strength of the interface (< ∼ 10 µN), the droplet ruptures, and the subcooling influences the interaction behavior significantly. At the lower temperature (1.5°C), the water droplet can spontaneously spread over the whole hydrate particle due to the significant reduction in water–CyC5 interfacial tension, and the water converts into hydrate rapidly. In this case, Span80 actually accelerates the agglomeration process and grants much shorter time to allow the external force to separate the water droplet and hydrate particle. At the higher temperature (7°C), the capillary bridge dominates the interaction behavior. The addition of Span80 reduced the capillary force through reducing the water–CyC5 interfacial tension. The measurements and observations in the present work can provide new insights into the mechanism of Span80 on inhibiting hydrate agglomeration.
GRAPHICAL ABSTRACT
Acknowledgments
The authors acknowledge the support from the China Postdoctoral Science Foundation funded projects (Grant No. 2015M580619 and 2016T90659), Shandong Provincial Natural Science Foundation (Grant No. ZR2016EEB04), and Program for Changjiang Scholars and Innovative Research Team in the University (Grant IRT1294).
Conflict of interest
The authors declare no competing financial interest.