In a single-phase gas reservoir, the reservoir fluid, usually called natural gas, remains as nonassociated gas during the entire producing life of the reservoir. This type of reservoir is frequently referred to as a dry gas reservoir because no condensate is formed in the reservoir during the life of production. However, many of these wells do produce condensate, because the temperature and pressure conditions in the producing well and at the surface can be significantly different from the reservoir temperature and pressure. This change in conditions can cause some components in the producing gas phase to condense and be produced as liquid. The amount of condensation is a function of not only the pressure and temperature but also the composition of the natural gas, which typically consists primarily of methane and ethane. The tendency for condensate to form on the surface increases as the concentration of heavier components increases in the reservoir fluid.
In beginning any type of reservoir analysis, specific information about the reservoir must be obtained in order to estimate the total hydrocarbon in place in the reservoir. As this chapter focuses exclusively on gas, this analysis will be presented by way of calculating a total gas in place. Typically, the reservoir formation will be mapped by seismic data that will allow for the determination of the areal extent of the reservoir (the total acreage of the underground formation) and also the reservoir thickness. These values are then multiplied together to determine the initial bulk volume of the reservoir. Core samples taken from appraisal wells will establish porosity and the relative fractions of oil, gas, and water. These are typically denoted So for oil, Sg for gas, and Sw for water. The letter i, when added to the subscript, denotes the initial value of that fraction.
A second crucial piece of information to be determined before commercial production begins is the estimated unit recovery. This unit recovery is the difference between the initial gas in place and the gas remaining in the reservoir at the time of abandonment and represents the total gas that can be produced from the reservoir. This same information is often expressed as a recovery factor, showing the percent of the initial gas in place that can be produced. These pieces of information are crucial for making the economic decision behind the development of a hydrocarbon reservoir.
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