A GLOBAL OUTLOOK ON METHANE GAS HYDRATES

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While gas hydrates have considerable potential as an en-

ergy resource, the challenges to realizing their commercial

production are not trivial. This is largely due to the fact that

gas hydrates occur in a solid form, with the gas molecules

(usually methane) trapped within a crystalline lattice of water

molecules. Many early concepts for producing methane from

gas hydrates were based on mining technologies, in which

solid masses of gas hydrate or gas hydrate-bearing sediment

would be physically removed from the sea floor. However,

major international gas hydrate research programs now tend

to dismiss mining approaches on the grounds of significant

detrimental environmental consequences and of economic

and technical impracticality.

However, recent field studies worldwide have confirmed

that concentrated deposits of gas hydrates can occur in res-

ervoir settings that are consistent with potential extraction

using existing hydrocarbon exploration, drilling, and pro-

duction technologies (Collett

et al.

2009). These settings

are where gas hydrates reside within the pore spaces of

discrete, permeable to highly permeable, laterally continu-

ous units rich in sand and or coarse-grained silts. (Moridis

et al.

2009). This would involve accessing the reservoir via

drilled wells, manipulating local pressure-temperature con-

ditions to force the solid hydrate crystal to dissociate into

its water and gas components, and then producing the re-

leased gas to the surface.

The advantage of using conventional hydrocarbon produc-

tion technologies is that there is a great deal of worldwide

experience on the subject, covering the spectrum from ex-

ploratory drilling to production. Based on this experience, it

appears likely that gas hydrate production in marine or per-

mafrost environments will involve the following existing hy-

drocarbon production approaches that are designed to enable

production while minimizing environmental impact:

• Establishment of safe foundation conditions for the well in-

frastructure through detailed pre-production study of the well-

site geology in order to recognize and avoid potential hazards

and provide a full understanding of the potential impact of

production on the ground supporting the well infrastructure;

• Installation and cementing of casing strings to maintain

well stability while drilling into the target gas hydrate pro-

duction interval;

• Installation of production casing and downhole comple-

tion equipment to enable testing and production of hydro-

carbon-bearing intervals;

• Effective well control and zonal isolation during production;

• Minimization of the impact of gas extraction on the sur-

face and subsurface environment; and

• Monitoring of the response of the gas hydrate field to pro-

duction.

This chapter describes some of the most recent suggested

approaches to meeting these requirements for gas hydrate

production.