| 초록 |
According to the future world energy demand growth, natural gases that mainly consist of CH4, is in the spotlight due to its lower CO2 emission. Among the various natural gas storage technologies, gas hydrate, which is a solid inclusion compound formed by host water molecules, has received great attention. Although the gas hydrate-based CH4 storage technology is considered as a promising option, the thermodynamic pressure‒temperature formation conditions must be further alleviated. As a novel approach to achieve the maximal CH4 storage capacity at the mitigated formation conditions, tuning phenomena on the gas hydrates of various guest promoters have been investigated so far. In this study, aminocyclopentane (ACP) was focused as a tunable liquid promoter for CH4 storage. The thermodynamic stability of ACP + CH4 hydrates was examined with the ACP concentrations of 1, 3, and 5.56 mol%. A powder X-ray diffraction and a dispersive Raman spectroscopy were employed to investigate the guest distribution in the distinct hydrate cages. The results revealed that ACP showed thermodynamic promotion effect on the CH4 hydrate, and confirmed that ACP induced tuning effect on CH4 hydrate as well. |
