Date of Award

5-17-2004

Document Type

Thesis

Abstract

Methane hydrates consist of a water ice lattice with methane gas molecules contained in the lattice cavities. When dissociated into its constituent water and methane, one volume of hydrate contains approximately 138 volumes of methane gas. On the North Slope area of Alaska, it is estimated that accumulations containing between 300 and 5000 trillion cubic feet of gas. The feasibility of a pilot production project was computed to determine the production potential of the hydrate accumulation and its economic return. The production of gas from a 1 mile by 4 mile reservoir block containing hydrate underlain by an accumulation of free gas was simulated and the resulting production profile inputted into an economic model. As the mechanism for the production of hydrates differs from conventional hydrocarbons, an existing thermal hydrocarbon computer simulation program was adapted. Results of the simulations indicate that depressurization of the free gas zone reduces the pressure at the gas-hydrate interface below that necessary for hydrate stability and causes the hydrate to dissociate into methane gas and water. Analysis found that, in most situations, a development project would be profitable, though the results are highly leveraged to the transportation cost and gas sales price.

Handle

http://hdl.handle.net/11122/6032

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