2022
DOI: 10.3389/feart.2022.859111
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A Thermodynamic Method for the Estimation of Free Gas Proportion in Depressurization Production of Natural Gas Hydrate

Abstract: Free gas saturation is one of the key factors that affect the overall production behaviors of hydrate reservoirs. For example, different free gas contents could alter the thermal response of hydrate reservoirs to the artificial stimulation and hence change the gas production performance. To investigate whether and how much the hydrate reservoir contains free gas, we proposed a thermodynamic method to calculate the total heat consumption of hydrate dissociation throughout gas production and assess the free gas … Show more

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Cited by 2 publications
(1 citation statement)
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“…Under conditions of no external heat supply, higher gas production rates can cause increased pore pressure, coupled with the consumption of decomposition heat, resulting in reduced reservoir temperature. This in turn leads to a slowdown and eventual cessation of the decomposition rate and may even result in the formation of secondary hydrates (Li et al, 2022). Heat consumption during hydrate decomposition consists of three components: geothermal supply, sensible heat, and latent heat.…”
Section: Production Simulation and Controlmentioning
confidence: 99%
“…Under conditions of no external heat supply, higher gas production rates can cause increased pore pressure, coupled with the consumption of decomposition heat, resulting in reduced reservoir temperature. This in turn leads to a slowdown and eventual cessation of the decomposition rate and may even result in the formation of secondary hydrates (Li et al, 2022). Heat consumption during hydrate decomposition consists of three components: geothermal supply, sensible heat, and latent heat.…”
Section: Production Simulation and Controlmentioning
confidence: 99%