Study of the rheology and flow risk of hydrate slurries containing . . . Rheological experiments were conducted to investigate their synergistic anti-agglomeration performance in water-in-oil emulsions and their adaptability in environments with wax, varying water contents, and different continuous phase compositions
Study of the rheology and flow risk of hydrate slurries . . . Rheological experiments were conducted to investigate their synergistic anti-agglomeration performance in water-in-oil emulsions and their adaptability in environments with wax, varying water contents, and different continuous phase compositions
Study of the rheology and flow risk of hydrate slurries containing . . . Rheological experiments were conducted to investigate their synergistic anti-agglomeration performance in water-in-oil emulsions and their adaptability in environments with wax, varying water contents, and different continuous phase compositions
Flow characteristics and morphology of hydrate slurry formed . . . The flow characteristics, shut down restart behavior, and morphology of hydrate slurries were investigated experimentally at different water cut The experimental results show that the adopted anti-agglomerant can disperse hydrate particles in fluid phase apparently
An improved high-efficiency anti-agglomerant for avoiding hydrate flow . . . This study conducted a flowloop investigation on the evolution and prevention of hydrate flow barriers, and identified two primary hydrate blocking modes in high water-cut systems: rapid blocking (RB) by flocculated hydrates and gradual blocking by hydrate particle migration
複合抗凝集剤を含む水和物スラリーのレオロジーと流動リスク . . . Key Laboratory of Gas Hydrate, Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, Guangzhou 510640, China について 「Key Laboratory of Gas Hydrate, Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, Guangzhou 510640, China」ですべてを検索
油水体系水合物浆液流动保障研究进展 - cip Plugging of multi-phase mixed transportation pipelines operating at low temperature and high pressure in deep water has become an urgent problem for safe production and flow assurance in energy industry, and the rapid formation of natural gas hydrate is the main trigger for this problem