期刊
FUEL
卷 354, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.fuel.2023.129372
关键词
Natural gas hydrate; NMR-based method; Invasion mechanism; Hydrate dissociation inhibition
A low-field NMR-based experimental method is developed to characterize the hydrate dissociation inhibition effect during fluid invasion to hydrate-bearing sediment. The presence of hydrate dissociation inhibitor significantly reduces invasion area and keeps invasion fluid saturation at 30% instead of 80% compared to water. Experimental techniques are used to reveal the mechanism of hydrate dissociation inhibition.
Hydrate dissociation inhibition has an important bearing on drilling safety for natural gas hydrate exploitation. A low-field NMR-based experimental method is developed for characterizing the hydrate dissociation inhibition effect during fluid invasion to hydrate-bearing sediment. The hydrate core sample is prepared by excess-gas method, and deionized water or hydrate dissociation inhibitor solution was injected at constant flow rate. In the presence of hydrate dissociation inhibitor, the invasion area is significantly reduced, and invasion fluid saturation was kept at 30 % instead of 80 % compared to water. Experimental techniques were used to reveal hydrate dissociation inhibition mechanism. Hydrate dissociation inhibitor at 1 % can reduce the thermal conductivity of aqueous solution from 0.5870 W center dot m(-1)center dot K-1 to 0.5710 W center dot m(-1)center dot K-1 at 4 degrees C, and increase the lowtemperature apparent viscosity from 1 mPa center dot s to 10 mPa center dot s, reducing the heat and mass transfer ability of drilling fluid with hydrate reservoirs. The surface tension of water was decreased from 72.8 mN center dot m(-1) to 59.94 mN center dot m(-1), which is conducive to the multi-point adsorption of inhibitors at the hydrate interface. The water activity was reduced from 1.000 to 0.985, showing little effect on the equilibrium temperature of hydrate phase. This work showcases the significance of hydrate dissociation inhibition during fluid invasion to hydrate-bearing sediment.
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