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Field Analysis of Effective Reservoir Permeabilities in Gas-Hydrate-Bearing Sediments

Timothy Collett1, Scott Dallimore2, and Steve Hancock3
1 U.S. Geological Survey, Denver, CO
2 Geological Survey of Canada, Sidney
3 APA Petroleum Engineering Inc, Calgary, AB

The Mallik 5L-38 Gas Hydrate Research Well, drilled in the Mackenzie River Delta of northern Canada, was an integral part of a field experiment to test the physical response of a gas hydrate deposit to various advanced production methods. Pressure drawdown tests were conducted on gas-hydrate-bearing sedimentary sections in the Mallik 5L-38 well using Schlumberger's Modular Dynamic Tester (MDT) tool. Conventional pressure transient analysis techniques were used to evaluate the MDT test data, yielding effective permeabilities ranging from 0.0011 to 0.13 mD. Downhole nuclear magnetic resonance (NMR) well logging also revealed high effective permeabilities within the gas-hydrate-bearing reservoirs of the Mallik 5L-38 well, with NMR derived effective permeabilities ranging from about 0.001 to 0.1 mD. Further analysis of the NMR log data from the Mallik 5L-38 well also revealed the presence of a “movable” free-water Previous HitphaseNext Hit within gas-hydrate-bearing sandstone reservoirs. The NMR inferred free-water Previous HitphaseNext Hit likely represents the compressive porous media fluid Previous HitphaseNext Hit along which flow was established and measured during the MDT gas hydrate tests. The presence of an interconnected porous media fluid Previous HitphaseTop and relatively high effective permeabilities, suggests that simple reservoir depressurization techniques may be a more efficient gas hydrate production scenario than previously considered.