Drilling and completing reservoirs without inducing measureable skin damage is rare. Frequently, drilling fluids impact a reservoir's flow potential while drilling as the rock matrix is invaded by solids and chemicals designed to enhance drilling performance. Drilling fluid can also cause formation damage if they are not properly removed during the displacement phase. These solids can migrate to the perforating zone and cause damage. Completion fluid designs governed by density for well control also often contribute to skin damage. Hydrocarbon flow may be impeded by damage caused by residual drilling debris or incompatible completion and workover fluids, in-situ emulsions, water block, organic deposition, or oily residue. Specialized surfactant systems have been developed to remediate near-wellbore damage caused by drilling and completion fluids, and damage induced by failed remediation attempts. The properties of these treatment systems include their ability to solubilize oil and, due to a significant reduction in interfacial tension between the organic and aqueous phases, effectively diffuse through the damaged zone to free up flow-resistant obstructions. The inherent properties of these systems make them ideal for removing induced formation damage as well as an excellent option for displacing synthetic or oil-based mud (S/OBM) from casing prior to the completion phase. In open-hole (OH) completions, specialized surfactant designs have proven very effective in removing S/OBM filter cake damage. In cased-hole (CH) completions, they have demonstrated a high degree of efficiency to clean damaged perforations.This paper presents a technical overview of surfactant systems for OH and CH remediation operations. The testing to qualify these fluids for the removal of damage and field results are presented that show the efficacy of these specialized surfactant systems to remove damage caused by OBM filter cakes and other oily debris to improve hydrocarbon recovery while addressing the operational challenges associated with these jobs. Introduction Avoidance of formation damage is a major attention when planning fluid systems for reservoir drilling and completion projects. 1-3 From a fluids standpoint, special emphasis is placed on developing systems that impart minimal damage to the rock matrix and leave the wellbore as clean as possible. The three primary cleaning activities target: (1) casing displacement cleanout, (2) filter cake removal in OH completions that use sand control techniques and (3) the clean-out of perforation tunnels in the near-wellbore region.Major improvements in OBM reservoir drill-in fluid design for OH completions have been made in recent years 4 ; however, in most operations, damage still exists. Other than poorly designed drill-in fluids, other major factors influencing the degree of residual damage from OBM include variations in reservoir quality, permeability, pore-size distribution, lithology, reservoir depletion and the complexity of the completion.In conventional completions, such as in sta...
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