Service for Dynamic Scale Removal of Barium Sulfate in Perforation Tunnels

A huge oil recovery opportunity waits in the reservoirs of mature oil fields. Reviving mature oil fields through advancements in oil recovery has opened the doors to renewed hydrocarbon production from wells that have been forgotten because of the natural depletion after years of providing. One of these advancements is the effect of surging existing perforations using atmospheric chambers to create a dynamic underbalance at the instant perforations are created has been used in other oil and gas assets worldwide to improve production and, consequently, return on investment (ROI). This production increase was achieved with surge chambers to clean existing perforations. This technology allows producers to obtain sustained higher productivity from their wells at a low cost. This system creates an instantaneous in-situ negative pressure in the wellbore that surges and cleans the perforated interval improving the wells inflow conditions. It is relatively inexpensive to treat a well because it can be deployed on wireline, slickline, jointed tubing, or coiled tubing (CT). These various deployment methods also make this technology available for rigless interventions. This process uses fast-opening surge vents and atmospheric chamber assemblies that are activated milliseconds after the creation of perforations in the casing and perforation tunnels in the hydrocarbon reservoir. The dynamic underbalance in the wellbore surges these perforation tunnels, enabling the removal of debris and crushed material created by the high energy output of the explosive shaped charges. This technique can be used to clean existing perforations that have become plugged-off or restricted as a result of scale buildup over time. To achieve this, the vent and chamber assembly are run without the perforating gun assembly. This technology has been successfully used on rigless wireline operations, and in tubing-conveyed operations. The results have shown that it is possible to regain initial production rates at a relatively low cost as compared to other near-wellbore (NWB) stimulation techniques. This perforate and surge technique has also been used to reduce the operator's cost and time associated with a hydraulic fracturing operation in sandstone reservoirs. In scale-removal applications, this surge technique has been used to successfully remove barium sulfate (BaSO4). To validate these operations, using high-speed pressure/temperature recorders is recommended to capture the dynamic event (Schatz 1999). In addition to the hardware associated with the vents, chambers, and perforating guns, a software component is used to accurately predict the amount of dynamic underbalance in a specific bottomhole assembly (BHA) to achieve the best perforation cleanup to maximize well productivity.

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Case Study: Barium Sulfate Scale Removal by Dynamic Underbalance

Mahmud

Ermila

2020

SPE International Conference and Exhibition on Formation Damage Control

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Petroleum wells producing water are likely to develop deposits of inorganic scales that may form near the wellbore and may plug perforations, coat casing, production tubulars, valves, deteriorate pump performance, and affect downhole completion equipment. Scales form and precipitate because the solution equilibrium of water is disturbed by pressure and temperature changes, dissolved gases or incompatibility between mixing waters. If scale formation and precipitation are allowed to proceed, scaling will limit production, eventually requiring abandonment of the well. In order to remove the effects of scale on production after a well undergoes sharp or early decline in production, it is essential to first determine which scales are forming and where they are forming. Some of this information can be reliably inferred from computer simulation procedures or by running calipers down the wellbore and measure decreases in the tubing inner diameter so that the scale can be physically detected. Gamma ray log interpretation may also be used to detect barium sulfate scale because naturally radioactive radium precipitates as an insoluble sulfate with this scale. Scale remediation techniques must be quick and nondamaging to the wellbore, tubing, and the reservoir. If the scale is in the wellbore, it can be removed mechanically or dissolved chemically. Selecting the best scale-removal technique for a particular well depends on knowing the type and quantity of scale, its physical composition, and its texture. Mechanical methods such as Dynamic Underbalance Pressure (DUP) technique are among the promising methods of scale removal in tubulars and across perforations. The purpose of this work is to present a case study of removing barium sulfate (BaSO4) scales from perforation tunnels utilizing dynamic underbalance technique. Wells from a North African oil field were selected for designed and optimized dynamic underbalance treatments to remove barium sulfate scales that precipitated in the perforation tunnels, preventing hydrocarbons flow from the formation to the production tubing. Gamma ray log and production logging tool were used before the treatment to detect and evaluate the type of scale and the intervals affected. Then the same tools were used after the treatment to assess stimulation taking place in the wells. Data obtained from the treatment was used to develop a model for predicting productivity index/inflow performance relationships. The dynamic underbalance technique successfully removed scale from all targeted wells, leading to an increase in oil production, without killing them (i.e. while still in production). Some wells achieved increase in oil production after the treatment of up to 65%. A predictive model was developed in order to estimate the performance of an underbalance scale removal treatment.

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Service for Dynamic Scale Removal of Barium Sulfate in Perforation Tunnels

Cited by 3 publications

References 4 publications

Well perforating—More than reservoir connection

Well perforating—More than reservoir connection

Case History: Surge Chambers, With or Without Perforating Guns, Conveyed With Wireline or Tubing, Prove to be an Effective Method for Perforation Cleanup, to Increase Well Productivity in the Ecuador Eastern Basin

Case Study: Barium Sulfate Scale Removal by Dynamic Underbalance

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