Abstract
Drilling multilateral and horizontal wells through tight gas reservoirs is a very difficult task. The drilling fluid should be designed to reduce both fluid and solid invasion into the tight formation to avoid formation damage by aqueous phase trapping. The objective of this paper is to assess the effect of sodium silicate on the drilling fluid properties such as rheological and filtration properties. Rheological properties (RPs) were measured at different temperatures while the filtration test was performed at 300 °F and 300 psi differential pressure. A retained permeability calculation was determined to confirm the prevention of solid invasion. The rheological properties results confirmed that the optimal concentration of sodium silicate (SS) was 0.075 wt.% and at the same time, the temperature has no effect on the SS optimum concentration. Using 0.075 wt.% of SS reduced the filtrate volume by 53% and decreased the filter cake thickness by 65%. After mechanical removal of the filter cake, the return permeability of the tight sandstone core was 100% confirming the prevention of solid invasion. The computer tomography (CT) scanner showed that the CT number before and after the filtration test was very close (almost the same) indicating zero solid invasion and prevention of the formation damage.
Highlights
IntroductionWater blockage (aqueous phase trapping) is a common issue while drilling unconventional and tight reservoirs
Water blockage is a common issue while drilling unconventional and tight reservoirs
Different amounts of sodium silicate (SS) were added to the drilling fluid and the Rheological properties (RPs) were measured at 77 °F
Summary
Water blockage (aqueous phase trapping) is a common issue while drilling unconventional and tight reservoirs. The viscosity of the gas is much lower than for water and as a result, a very high capillary pressure will be required to flow the gas and to remove the filtrate water, which filled the small pores of the tight formation. The drill-in fluid should be formed to have a removable solid by the acid reaction, form an ideal filter cake and reduce or prevent the solid invasion, eliminate the reaction with the formation type, and compatible with the formation fluid [2]. Large-diameter bridging material should be used to plug the pore through the reservoir section of the South China Sea [5]
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