화학공학소재연구정보센터
Applied Energy, Vol.188, 305-314, 2017
Gas production from hydrates by CH4-CO2/H-2 replacement
A novel natural gas hydrate production method combined with methane steam reforming and CO2/H-2 replacement was proposed to improve the replacement effect and reduce the cost of later gas separation, in which the role of H-2 is to decrease the partial pressure of methane in gas phase and help to break the methane hydrate stability. After preparing representative hydrate sediment samples, we conducted a series of experiments to study the characteristics of gas production by the CH4-CO2/H-2 replacement method. For the composition of CO2 and H-2 in the feed gas, an increase in the mole fraction of H-2 would result in a higher accumulative gas production ratio during the gas sweep and replacement stages but decrease the CO2 sequestration ratio, which refers to the amount of CO2 captured by the hydrate versus the gross CO2 injected into the hydrate layer. On the contrary, art increase in the mole fraction of CO2 in the feed gas would have a higher CO2 sequestration ratio, but would sacrifice both the gas production rate and the accumulative methane production ratio. Notably, when the mole fraction of the CO2 ranges from 55% to 72%, the amount of CO2 trapped into hydrate phase is close to the amdunt of methane dissociated from hydrate. Although the accumulative gas production ratio is not the highest in this range, it can meet the dual function of CO2 replacement. (C) 2016 Elsevier Ltd. All rights reserved.