溴化物
化学
循环(流体动力学)
无机化学
化学工程
热力学
工程类
物理
作者
Chuanxiao Cheng,Jinhai Zhang,Yanqiu Xiao,Tian-Yi Song,Tao Jin,Jianxiu Liu,Shijie Wei,Tian Qi,Wenfeng Hu,Jun Zhang,Jun Ma,Yuexin Han,Jiaqi Wang,Lunxiang Zhang
标识
DOI:10.1016/j.est.2024.111512
摘要
Hydrate cold storage technology offers a promising solution for effectively storing high energy density. Therefore, the aim of this study is to explore the cycling and gas circulation-enhanced formation characteristics of TBAB hydrate at different concentrations. Notably, it was observed that when the concentration of TBAB hydrate surpassed 25 wt%, the hydrate exhibited a consistent high formation efficiency without displaying any discernible decay characteristics. Upon reaching a TBAB concentration of 35 wt%, a notable concentration stratification phenomenon became evident following the complete dissociation of hydrates. Remarkably, the introduction of gas circulation to enhance hydrate formation yielded a bulk phase uniform nucleation mode for TBAB hydrate formation. This led to a remarkable 72 % reduction in the induction time. Even under conditions of 45 wt% concentration, the subcooling was as low as 4.35 °C. These research findings hold significant implications for the advancement of efficient hydrate cycling formation technology and its potential industrial applications.
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