Alexandre Zacharias Pereira scite author profile

Alexandre Zacharias Pereira

2Publications

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4Citation Statements Given

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Petrobras (Brazil)

Publications

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Novel Mechanism For Extending Horizontal Gravel-Pack Completions-Successful Case History In Campos Basin

Pereira

Lima

Barretto

et al. 2005

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractDeepwater reservoirs with their inherent low reservoir fracture gradient are generally restricted in the length of horizontal section that can be safely gravel packed. Historically, increasing maximum length required introducing relatively complex apparati such as intermediate valves in the washpipe or systems providing additional flow paths to bypass any bridges after they have formed.This paper presents an annular packoff mechanism that has the capability to potentially alleviate this problem and improve overall reliability. The component is a simple "add on," that consists of a liner that bridges the rat-hole and extends down into the open hole below the rat hole since this is the primary region of concern for premature screenout during an HzGP. The potential of screenout here is due to the reduced flow velocity and irregularities in the flow regime. The added liner is run with the standard HzGP completion equipment. This is a typical issue in the deep water and heavy oil reservoirs of Brazil where the reservoirs are predominantly found at a relatively shallow below the ocean floor in relation to water depth. Annular flow velocity through the rat hole and area of concern is critical in avoiding premature screen-out. For a given flow rate, the annular velocity in the rat hole will be lower than that in the open hole due to the larger annular area in the rat hole. The lower annular velocity in the rathole section results in a relatively high alpha wave. When slurry flows in the area open to flow above the top of the alpha wave in the rat-hole into the open-hole section, it is forced to dip down into the area open to flow in the open hole. This phenomenon is a major area of concern during scale model testing because of the turbulence that establishes a dip in the alpha wave height followed immediately by an increase in alpha wave height in this transition area. This "pinching" effect potentially induces a premature screenout situation. The first wellbore completed with this system has verified that no negative impact on circulating rates or pressures occurs during the course of an HzGP when the new system is used. The case history discusses the pressure curves and flow-rate responses during the operation and shows how the system can increase the operating envelope and reliability of the HzGP treatment. This addition of this component has been shown to more than double the length of horizontal section that can be safely gravel packed, especially under conditions where low reservoir fracture gradient is the primary limiting factor.

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Deepwater Four Zones Selective Washpipeless Frac-Pack Completion Inside a Bad Cemented Liner: A Case History

Vilela¹,

Hightower²,

Montanha³

et al. 2004

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TX 75083-3836, U.S.A., fax 01-972-952-9435. AbstractFracpack completions are not new to the oil and gas industry; however, they are operations that are very critical to the results of well longevity, productivity, and are considered operationally "high-risk" completions.Some fields in deepwater Campos basin ( Figure 1) -Brazil have tightly spaced productive zones that require sand control and selectivity of production. Two systems were used on the fourzone completion to allow for the tight spacing between zones. On the lower and upper middle zone a modified washpipeless isolation system (Crippled) was utilized and on the lower middle and upper zones a high pressure retrievable washpipeless isolation system (HPRWIS) was used. Both systems utilize a concentric string for isolation, not using washpipe to the bottom of the screen, like a normal land or Gulf of Mexico completion stems from unsuccessful attempts resulting in stuck washpipe in 7" liners with 2 3/8" isolation tubing on floating platforms or drillships and rough seas.The HPRWIS system also provides "live-annulus" capabilities and a method to isolate the production screen from the tubing after fracing by placing a concentric string into a lower seal bore after the treatment is over. All installation is done at the surface in both systems, but the HPRWIS is initially spaced out to allow communication through the lower most part of the production screen. After reversing operations to remove excess proppant from the workstring, a shifting prong actuates the concentric string down by means of well hydrostatic working across an atmospheric chamber connected to the gravel pack assembly.Actuation is accomplished by mechanically removing a lock ring attached to the atmospheric chamber with the previously mentioned shifting prong. The concentric string may also be retrieved on pipe by utilizing a HPRWIS retrieving tool with straight upward pull to the inner assembly.This paper outlines the utilization of "State-of-the-art" frac pack downhole equipment technology used to successfully complete, without unscheduled events, a four zone well with bad cemented liner (Figures 2-5) in the Campos Basin, Macae, Brazil.

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