Sensitivity analysis of time lapse gravity for monitoring fluid saturation changes in a giant multi-phase gas reservoir located in south of Iran

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KHOSRAVI A.; MOTAVALLI ANBARAN S.H.; Sarallah Zabihi s.; Emami Niri m.

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ISSN: 2588-4824

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Journal: Journal of the Earth and Space Physics Year:2019 | Volume:44 | Issue:4 Page(s): 53-61

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Title

Sensitivity analysis of time lapse gravity for monitoring fluid saturation changes in a giant multi-phase gas reservoir located in south of Iran

Author(s)

KHOSRAVI A. | MOTAVALLI ANBARAN S.H. | Sarallah Zabihi s. | Emami Niri m. | Issue Writer Certificate

Keywords

4D gravity

Water influx

Aquifer

Fluid saturation

Abstract

The time lapse gravity method is a widely used technique to monitor the subsurface density changes in time and space. In hydrocarbon reservoirs, the density variations are due to different factors, such as: substitution of fluids with high density contrast, Water influx, gas injection, and the variation in reservoir geomechanical behavior. Considering the monitoring of saturation changes in the reservoir that cannot be inferred directly by seismic survey, a forward modelling followed by a sensitivity study is performed to examine that in what conditions the saturation changes are detectable by means of 4D gravity method in the understudy reservoir. Then static and dynamic models of a giant multi-phase gas reservoir are constructed. Then, synthetic gravity data are generated after variation of production time intervals and the number of production and injection wells. In addition to detecting the gravity signal for shallower reservoirs with similar characteristics to our reservoir, a sensitivity analysis was conducted for variation in depth of the reservoir. As either the depth of the reservoir decreases or the number of the production wells and production time periods increases, the produced gravity signal is more prone to be detectable by means of modern offshore gravimeters. The gravity signal could be detected with the maximum magnitude range of 9-40 μ Gal in different scenarios as a consequence of gas-water substitution, which is consistent with water drive support from surrounding Aquifers. Therefore, this method is applicable for providing complementary and even independent source of information about the saturation front changes in the under-study reservoir.

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