Mechanisms governing production efficiency from methane hydrate bearing sediments

“…Presently, the main thermal stimulation methods include microwave heating, electric heating, and thermal fluid injection. − For the combined approach of depressurization and thermal fluid injection, the gas production may be affected by the physical/chemical properties of the injected thermal fluid, the injection flow rate, the injected temperature and the properties of hydrate reservoir, the mining method, and so on. − For instance, Li et al conducted the methane hydrate dissociation experiments by using the combined approach of periodic depressurization and thermal water injection to analyze the influence of soaking time on hydrate dissociation behavior. And they found that the soaking time could affect the heat transfer characteristics between the environment and the reservoir and gas production.…”

Production Characteristics of the Methane Hydrate Sediment under Ionic Liquid Injection

“…Presently, the main thermal stimulation methods include microwave heating, electric heating, and thermal fluid injection. − For the combined approach of depressurization and thermal fluid injection, the gas production may be affected by the physical/chemical properties of the injected thermal fluid, the injection flow rate, the injected temperature and the properties of hydrate reservoir, the mining method, and so on. − For instance, Li et al conducted the methane hydrate dissociation experiments by using the combined approach of periodic depressurization and thermal water injection to analyze the influence of soaking time on hydrate dissociation behavior. And they found that the soaking time could affect the heat transfer characteristics between the environment and the reservoir and gas production.…”

Production Characteristics of the Methane Hydrate Sediment under Ionic Liquid Injection