Numerical analysis of hydrate exploitation performances of depressurization combined with thermal fluid injection in marine hydrate reservoir with impermeable boundary
Author:
Funder
China Postdoctoral Science Foundation
Natural Science Foundation of Jiangxi Province
Education Department of Jiangxi Province
National Natural Science Foundation of China
Publisher
Elsevier BV
Reference58 articles.
1. Japan completes first offshore methane hydrate production test—methane successfully produced from deepwater hydrate layers;Boswell;Center for Natural Gas and Oil,2013
2. Current perspectives on gas hydrate resources;Boswell;Energy Environ. Sci.,2011
3. India National Gas Hydrate Program Expedition 02 summary of scientific results: numerical simulation of reservoir response to depressurization;Boswell;Mar. Petrol. Geol.,2019
4. The ignik sikumi field experiment, Alaska north slope: design, operations, and implications for CO2–CH4 exchange in gas hydrate reservoirs;Boswell;Energy Fuels,2016
5. Research on the influence of injection–production parameters on challenging natural gas hydrate exploitation using depressurization combined with thermal injection stimulated by hydraulic fracturing;Chen;Energy Fuels,2021
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