The diffusivity equation is derived by combining three physical principles:ģ) the equation of state for a slightly compressible liquidįor convenience, we will use a consistent system of units throughout this article. The diffusivity equation describes the flow of a slightly compressible liquid through a porous medium. ►The three physical principles used to develop the diffusivity equation. ![]() In this article, the continuity equation, Darcy’s law, and equation of state for a slightly compressible liquid are used to develop the diffusivity equation, describing single-phase flow of a slightly compressible liquid. This paper also describes the mechanical issues, well preparations, water production problems, and installation of permanent gauges in these wells.The theory of well testing begins with an understanding of fluid flow in porous media. The field examples presented here illustrate the unique challenges experienced while applying pressure-transient testing in pumping wells to characterize the geologically complex reservoirs of the Calcutta field. The results have contributed to a better understanding of reservoir performance and have led to increased production optimization efforts. The geological interpretations were improved and uncertainties regarding completion efficiency have largely been eliminated. Formation permeability was also found to be higher than the log-derived permeability values this difference could have been caused by the gravel pack. Analyses of the tested wells showed better formation properties than suggested by the initial well-log-derived potentials, i.e., wells suspected to have formation damage proved to have negative skin, instead. Additionally, uncertainty in fluid properties and problems with mechanical and pumping equipment caused undesirable pressure disturbances during the well testing periods. The pressure transient analysis was also influenced by limitations in production data gathering during the flow periods. However, the quality of the recorded pressure data was adversely affected by frequent power failures that resulted in unplanned pressure buildup periods. After the initial operational and mechanical restrictions were resolved, a field-wide program was implemented in 2008. The inability to obtain reliable core or fluid samples, made pressure-transient testing an essential tool for characterizing these reservoirs. However, the emulsified water in the heavy oil made it difficult to conduct such PVT analysis. ![]() Initial quality checks with surface liquid samples for PVT analysis routinely involve measurement of the bubble point pressure at ambient temperature. Completions consist of gravel pack with screens to control the unconsolidated sands. The unconsolidated nature of these reservoirs makes it virtually impossible to recover any core successfully hence, petrophysical parameters were originally derived from well-log analyses. These reservoirs are difficult to characterize because of the complexity of the depositional environments encountered in the wetlands of Suriname. ![]() ![]() The Calcutta field in Suriname is comprised of shallow, low-pressure, heavy-oil sandstone reservoirs that are being produced by progressive cavity pumps.
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