Clathrate hydrate can be used in energy gas storage and transportation, CO2 capture and cool storage etc. However, these technologies are difficult to be used due to the low formation rate and long induction time of h...Clathrate hydrate can be used in energy gas storage and transportation, CO2 capture and cool storage etc. However, these technologies are difficult to be used due to the low formation rate and long induction time of hydrate formation. In this paper, ZIF-61 (zeolite imidazolate framework, ZIF) was first used in hydrate formation to stimulate hydrate nucleation. As an additive of clathrate hydrate, ZIF-61 promoted obviously the acceleration of tetrahydrofuran (THF) hydrate nucleation. It shortened the induction time of THF hydrate formation from 2-5 h to 0.3-1 h mainly due to the template function of ZIF-61 by which the nucleation of THF hydrate has been promoted.展开更多
Natural gas hydrate is an alternative energy source with a great potential for development.The addition of surfactants has been found to have practical implications on the acceleration of hydrate formation in the indu...Natural gas hydrate is an alternative energy source with a great potential for development.The addition of surfactants has been found to have practical implications on the acceleration of hydrate formation in the industrial sector.In this paper,the mechanisms of different surfactants that have been reported to promote hydrate formation are summarized.Besides,the factors influencing surfactant-promoted hydrate formation,including the type,concentration,and structure of the surfactant,are also described.Moreover,the effects of surfactants on the formation of hydrate in pure water,brine,porous media,and systems containing multiple surfactants are discussed.The synergistic or inhibitory effects of the combinations of these additives are also analyzed.Furthermore,the process of establishing kinetic and thermodynamic models to simulate the factors affecting the formation of hydrate in surfactant-containing solutions is illustrated and summarized.展开更多
基金supported by the National Natural Science Foundation of China (Grant No. 51106054 and Grant No. 51176051)the National Basic Research Program of China ("973" Program) (Grant No. 2009CB219504-03)
文摘Clathrate hydrate can be used in energy gas storage and transportation, CO2 capture and cool storage etc. However, these technologies are difficult to be used due to the low formation rate and long induction time of hydrate formation. In this paper, ZIF-61 (zeolite imidazolate framework, ZIF) was first used in hydrate formation to stimulate hydrate nucleation. As an additive of clathrate hydrate, ZIF-61 promoted obviously the acceleration of tetrahydrofuran (THF) hydrate nucleation. It shortened the induction time of THF hydrate formation from 2-5 h to 0.3-1 h mainly due to the template function of ZIF-61 by which the nucleation of THF hydrate has been promoted.
基金This work was supported by the Doctoral Research Start-up Fund Project of Liaoning Province,China(No.2019-BS-159).
文摘Natural gas hydrate is an alternative energy source with a great potential for development.The addition of surfactants has been found to have practical implications on the acceleration of hydrate formation in the industrial sector.In this paper,the mechanisms of different surfactants that have been reported to promote hydrate formation are summarized.Besides,the factors influencing surfactant-promoted hydrate formation,including the type,concentration,and structure of the surfactant,are also described.Moreover,the effects of surfactants on the formation of hydrate in pure water,brine,porous media,and systems containing multiple surfactants are discussed.The synergistic or inhibitory effects of the combinations of these additives are also analyzed.Furthermore,the process of establishing kinetic and thermodynamic models to simulate the factors affecting the formation of hydrate in surfactant-containing solutions is illustrated and summarized.
