A Thermal Chemical Reaction System for Natural Gas Hydrates Exploitation

Abstract: The methodology of using CO2 to replace CH4 to recover the natural gas hydrates (NGHs) is supposed to avoid geological disasters. However, the reaction path of the CH4–CO2 replacement method is too complex to give satisfactory replacement efficiency. Therefore, this study proposed a thermochemical reaction system that used the heat and the nitrogen released by the thermochemical reactions to recover NGHs. The performance of the thermochemical reaction system (NaNO2 and NH4Cl) regarding heat generation and gas … Show more

“…Gas production from natural gas hydrate reservoirs can be initialized by changing the reservoir condition outside of the hydrate stability zone; the production strategies include hydrate dissociation through thermal stimulation [3], depressurization [4][5][6], chemical potential shift [7][8], and the combinations thereof [9]. Among these, depressurization and thermal stimulation are the most known approaches to extract gas from natural hydrate zones [10].…”

Investigation of the impact of threshold pressure gradient on gas production from hydrate deposits

“…Gas production from natural gas hydrate reservoirs can be initialized by changing the reservoir condition outside of the hydrate stability zone; the production strategies include hydrate dissociation through thermal stimulation [3], depressurization [4][5][6], chemical potential shift [7][8], and the combinations thereof [9]. Among these, depressurization and thermal stimulation are the most known approaches to extract gas from natural hydrate zones [10].…”

Investigation of the impact of threshold pressure gradient on gas production from hydrate deposits