Perforating con't 4

Wireline Perforating

Wireline (or electric line) is the traditional way to run perforating guns, providing the advantages of real-time depth control and selectivity. Guns can be run either before the completion is run (casing guns) or through the completion (through-tubing guns). Today any type of perforating gun can be run on wireline including strip guns, casing guns, scallop guns, Pivot guns, Enerjet guns, TCP guns, or oriented guns. Many other explosive devices can also be run, including plug and packer setting tools, cutters, backoff bars, and severing tools.

Perforating Gun Systems and Charges

Schlumberger offers capsule and hollow carrier gun systems with a wide variety of perforating charges for every environment as before.

Completion Perforating

Completion perforating enables large, long strings of guns to be installed with the completion and fired with the right completion fluid in place for immediate cleanup and production.

After firing, the guns are normally dropped into the rathole or left connected to the completion, in which case production is through perforated tailpipe. Additional hardware such as automatic drop subs, shock absorbers, valves, and debris subs can be included in the string.

Before Completion Perforating

Perforating guns can be run before the completion to position guns that are larger than the ID of the tubing. In vertical or deviated wells, guns can be hung off in the liner using a MAXR anchor. When the guns are fired, the anchor automatically releases to drop the guns into the rathole.

In a monobore completion, the guns and anchor can also be recovered to the surface. In horizontal wells, guns can be placed in the horizontal section before the upper completion is run by using disconnect devices run below coiled tubing or drillpipe.

Completion Perforating Without Killing the Well

The CWOK process uses underbalance, dynamic underbalance (PURE), or extreme underbalance perforating for clean perforations, then removes the guns without killing the well.

A typical well kill may damage clean perforations unless very carefully designed pills are developed. CWOK includes the following techniques:

  • Through tubing perforating (wireline or slickline)
  • X-Tools to drop guns into the rathole
  • FIV to isolate the reservoir and enable long gun strings to be recovered to surface
  • CIRP to connect and disconnect long gun strings under pressure
  • GunStack to run and stack guns on anchors

Other techniques include running isolation plugs through the completion in order to recover DST strings, and PerfPac, which allows completion of gravel packs without killing the well.

Slickline Perforating

Slickline can be used for perforating, setting plugs or packers, or cutting tubing. Slickline operations are normally fast and use simple pressure control equipment. Slickline units occupy a small footprint on rigs or platforms and can be transported easily.

The eFire-Slickline firing head is used to fire guns or initiate setting tools. This electronic device is simple to use and has many useful features including full operator control to arm, fire, abort, and rearm if needed.

Coiled Tubing Perforating

Coiled Tubing (CT) provides additional perforating capability and flexibility over other conveyance systems. The rigidity and strength of CT allows enduring greater tensile and compressive forces, which is a major operational advantage when perforating in highly deviated and horizontal wells or with longer gun strings.

CT perforating is ideal for live wells; pressure control techniques are used to run long gun strings and either drop off or retrieve the guns without having to kill the well.

In subsea wells, the subsea lubricator defines the length of gun that can be run. With other wells, the surface riser or surface lubricator valve determines the length of gun. The CIRP deployment system can be used in conjunction with CT to deploy and retrieve guns under pressure.

In depleted wells where drawdown is insufficient, nitrogen can be circulated at convenience to lighten the overall fluid column, increasing the drawdown at the zone of interest. The resulting pressure differential is similar to that produced by gas lift systems.

For accurate depth control, CT wired with integrated electrical cable is run in combination with a casing collar locator and a gamma ray detector. Optional real-time and memory sensors for pressure and temperature are used to monitor the required underbalance.

There are several ways to activate guns run with CT: hydraulic delay firing heads; drop ball firing heads; eFire-CT firing system using circulation rates; or electrically using "stiff-wire" CT, where an electric line cable is run through the CT to enable firing the guns in a similar manner to a wireline job.

Stiff-wire CT allows the use of standard wireline correlation tools. Hydraulic CT allows stimulation fluids to be pumped without the risk of damaging a wireline cable.

An additional specialty gun is the pump-over gun. This gun allows circulation through a special sleeve on the outside of the gun to the bottom of the string. The pump-over gun is used during fracture operations in horizontal wells to save a cleanout trip between fracturing and perforating the next interval.

Perforating con't 3

Tubing-Conveyed Perforating

Tubing-conveyed perforating (TCP) completion techniques enable perforating very long intervals in one run—some TCP strings have exceeded 8,000 ft [2,440 m] in length—and in highly deviated and horizontal wells TCP is the only means of accessing to the perforating depth. TCP also facilitates running large guns and using high underbalance. When TCP is deployed in conjunction with drillstem test (DST) tools, well fluids can be easily controlled. Without having to kill the well, TCP strings can be retrieved (shoot and pull) or left as part of the permanent completion (integrated TCP).
TCP Applications
Your choice of tubing-conveyed perforating (TCP) string design will vary depending on your completion type: temporary, permanent, or workover. The strings listed below include only the most common components for different TCP applications. Your Schlumberger representative can advise you on the most efficient string configuration for your application.

1-Firing Systems

BCF Ball-Activated Firing Head

The small-diameter coiled tubing (CT) firing head is recommended for use in guns 49.9 mm (1.69 in) or smaller in diameter.
CBF Circulation Ball Drop-Activated Firing Head

The most commonly used CT firing head, the CBF is available with multiple adapters to accommodate various CT dimensions and gun sizes. The head is insensitive to water-hammer effects and vertical drops.
DFS Differential Pressure Firing System

The DFS activates the differential pressure firing head by using the pressure created between the annulus pressure above the packer and the cushion or sump pressure below the packer.
BHF Drop-Bar Hydrostatic Firing Head

The drop-bar hydrostatic firing (BHF) head has a firing pin that is driven by hydrostatic pressure and does not depend on the intensity of drop-bar impact. Its features minimize the possibility of accidental firing and prevent and release trapped pressure.
eFire Electronic Firing Head System

eFire electronic firing head systems for coiled tubing, TCP and wireline provide a more efficient and economical method for a wide range of downhole explosive operations.
EOFH Extreme Overbalanced Firing Head

The direct pressure-activated head is designed for no-delay firing and is used mainly in extreme overbalanced perforating operations.
HDF Hydraulic Delay Firing Head

The hydraulic delay firing head is an absolute-pressure-operated firing head.
ProFire Programmable Firing Head

The ProFire programmable firing head uses hydromechanical technology to precisely control gun firing time when multiple operations are performed under pressure.
Redundant Firing Systems

TCF Trigger Charge Firing Systems

The trigger charge firing systems are designed to offer maximum flexibility and control over the firing operation because the firing head is run separately from the gun string.
Absolute Pressure-Actuated Trigger Charge Firing System TCF-P | Drop Bar-Actuated Trigger Charge Firing System TCF-DB | Jar Down-Actuated Trigger Charge Firing System TCF-JD
USTP Universal Setting Tool with Propellant

The USTP is used to set downhole equipment such as packers, bridge plugs, and the MAXR automatic release anchor on drillpipe, coiled tubing, slickline, or wireline.

2- TCP and Completion Perforating Accessories

SXPV Automatic Production Valve

An explosive production valve synchronized to open as soon as the perforating guns fire.
Debris-Circulating Sub Accessory

The debris-circulating sub consists of a ceramic cone seated in a ported sub, usually positioned between the packer and the guns, typically 30 ft above the firing head.
DTRV Drop-Bar-Triggered Surge Valve

Pressure-operated valve used to isolate the rathole from the tubing.
eSleeve Isolation Valve

A production valve with multiple applications that is activated by tubing or annulus pressure.
SXVA Explosively Initiated Vertical Shock Absorber

Absorbs the shock of the guns as they are detonated to prevent damage to packers, gauges, adjacent gun strings, etc.
FIS Fluid and Debris Isolation Sub

The fluid/debris isolation sub is an enhancement of the standard cone-type debris-circulating sub for heavy mud environments or large amounts of debris.
FLUP Fill-Up Valve

The pressure-operated fill-up valve is open to the annulus, allowing the tubing to fill while going down.
Gun Swivel

A gun swivel allows the gun string to rotate with respect to the tubing string.
Last-Shot Detection System

Compatible with all firing heads.
POUV Pressure-Operated Underbalance Valve

Pressure actuation and operation.
Radioactive Marker Sub

Accurate gun depth positioning.

3- TCP Gun Release Systems

CTXR Closed Tubing Explosive-Actuated Release

Automatically drops tubing-conveyed perforating (TCP) guns at the instant of detonation to the well bottom after the guns are fired. When the guns are fired in a closed system in which the tubing pressure is less than the wellbore pressure, the CTXR gun release disconnects the TCP guns.
CTR Controlled Tension Release

Allows retrieval of the running assembly if guns become stuck. The CTR is a fullbore safety release device for TCP operations. Pulling on the string with a predetermined tension and holding this tension for a predetermined time actuates the CTR.
MAXR Auto Release Gun Anchor

Primarily used to anchor high-shot-density (HSD) gun strings in monobore wells. The MAXR can be run in the hole with either wireline or pipe and is set with standard setting equipment.
SXAR Automatic Gun Release

Automatically drops tubing-conveyed perforating guns to the well bottom after the guns are fired. A full-tubing opening exists after the gun string is dropped, and the tailpipe incorporates a muleshoe entry wireline guide. Firing heads and no-gos are dropped as one piece for easy fishing.
TCR Tubing-Conveyed Gun Release

Enables TCP guns to be dropped off the end of the running string, allowing access to the perforated zone for stimulation, production logging, squeezing, or additional perforating. After the guns have dropped, the release housing acts as a tubing reentry guide.
WXAR Automatic Gun Release with X-Tools Technology

Automatically drops perforating guns at the instant of detonation. The WXAR, which extends the length of the gun strings that can be conveyed into the well, can be run on for wireline, tubing, or coiled tubing. Use of the WXAR enables long intervals to be perforated at underbalanced pressure without killing the well

Perforating con't 2

Pipe Recovery and Remedial Services

Schlumberger provides several solutions for recovering casing, drillpipe, coiled tubing, or tubing.

After the free point is determined, stuck drillpipe can be loosened by using an explosive backoff or cut with severing or colliding tools.

Well completions can be recovered by using mechanical, explosive, electrical, or chemical cutters. Tubing can be cut in several places, but usually above the packer so that the packer can be milled and fished.

Third-Party Services

Schlumberger uses reputable third-party providers for many pipe recovery and remedial services. Contact your Schlumberger representative for more information.

  • Casing and drillpipe cutters—Specialized explosive cutters are designed specifically for cutting casing (well abandonment) and drillpipe (stuck pipe recovery).

  • Chemical cutters—Chemical cutters provide a clean cut for severing coiled tubing, drillpipe, and tubing.

  • Mechanical cutters—Mechanical cutters are used to effectively cut casing, coiled tubing, drillpipe, and tubing when explosive or chemical cutters are not an option.

  • Severing, colliding, and split-shot tools—Severing or colliding tools contain high explosive loads to rupture and split heavyweight drillpipe and drill collars for pipe recovery.

Hollow Carrier Gun Perforating Systems con't

Hollow Carrier Gun Perforating Systems

Hollow carrier guns are pressure-tight steel tubes in which shaped charges are positioned. For gun ODs of 2 7/8 in and larger, hollow carrier guns perform better than exposed guns because they use larger charges, optimized phasing, and increased shot density. Hollow carrier guns are also used when debris is unacceptable and in hostile conditions that preclude using exposed guns.

Schlumberger hollow carrier guns are designed as systems, comprising specific carriers, charges, detonating cords, and boosters, to provide maximum perforator performance. All Schlumberger gun systems are manufactured to our rigorous QA standards. The main types of hollow carrier guns are

PowerJet Omega

PowerJet Omega

PowerJet Omega deep penetrating shaped charge is the latest-generation PowerJet shaped charge from Schlumberger.

On average, PowerJet Omega shaped charges produce a 20% increase in penetration depth compared with the performance of previous-generation shaped charges. Performance is verified through the official American Petroleum Institute perforation registration program, API RP 19B. This deeper penetration translates to increased well production and injection, coupled with improved well efficiency for a positive impact on lifting costs.

The PowerJet Omega shaped charge is available for 2-in to 7-in HSD High Shot Density gun systems. HSD gun systems can be conveyed by wireline, slickline, tubing-conveyed perforating (TCP), coiled tubing, tractors, and permanent completions. PowerJet Omega shaped charges are also used with underbalanced perforating operations or the dynamic underbalanced technique of the PURE perforating system for clean perforations.

Benefits

  • Penetrates past formation damage, increasing well productivity or injectivity
  • Maintains deep penetration at high shot density
  • Intersects more natural fractures

PURE Perforating System for Clean Perforations

"Dynamic underbalance" technique for increased productivity

Minimize or eliminate perforation damage and increase productivity

PURE Perforating for Ultimate Reservoir Exploitation system optimizes the well dynamic underbalance—the transient underbalance just after creation of the perforation cavity. The software specifies a unique perforating system and optimum completion process. This controls the optimum dynamic underbalance rather than relying on the estimated reservoir pressure. This technique has been successfully performed in hard- and soft-rock formations, oil and gas reservoirs, and sandstones and carbonates.

Improve operating efficiency

An Alaskan water injection well was performing below expectations. The 90 ft of perforations were taking 17,500 B/D. Analysis of the well and reservoir conditions by PURE design software resulted in a job design using 3 3/8-in. guns and PowerJet deep penetrating shaped charges.Although only a 20-ft section was perforated, the injection rate increased to 25,000 B/D. The injection pressure remained approximately the same or slightly lower. The injection profile shows clearly the PURE perforations were taking 93% of the total flow for an improvement of 493% in the contribution rate.Two low-permeability (1-mD) gas wells in the Weber formation of Wyoming were perforated with PURE technology at initial overbalances of 3000 and 3700 psi. Both wells flowed naturally at 5.5 and 3.8 MMscf/D, respectively, without the acid stimulation usually needed to obtain clean perforations. The wells were tubing-conveyed perforating permanent completions.

Benefits

  • Minimize or eliminate perforation damage and increase productivity
  • Enhance acidizing and hydraulic fracturing operations and treatment results
  • Minimize disruption of the cement/sandface hydraulic bond

HSD High Shot Density Gun Systems

HSD High Shot Density guns feature increased shot density, optimum phasing patterns, and the largest high-performance charges available for natural, stimulated, and sand control completions. HSD guns use expendable, retrievable carriers, which means that once the gun system has been used, it is retrieved and disposed of. Deployment is primarily on wireline cable or tubing. Tractor conveyance can be used in deviated wells.

Port Plug Guns and HEGS High-Efficiency Gun Systems

Port Plug guns shoot the charges through replaceable plugs in a reusable gun carrier and feature highly flexible multiple-gun selectivity for remote operations, enabling the perforation of large intervals with minimal hardware.

OrientXact Tubing-Conveyed Oriented Perforating System

Precise orientation and confirmation technology

Maximize production

OrientXact tubing-conveyed oriented perforating system decreases costs and improves productivity with less sand production. Oriented perforating is an innovative solution for low-debris perforating in horizontal and highly deviated wells.

Prevent sand

The system minimizes tunnel diameter in the formation. This increases the strength of the tunnel and the number of effective perforating tunnels. Reduces pressure drawdown across perforated intervals and flow rate per perforation.

Improve performance

OrientXact uses PowerJet Plus low-debris, deep penetrating, steel-cased, weighted shaped charges. These charges minimize perforation damage with more stability during drawdown and depletion.

Gain from the experience

Schlumberger developed this technology at operator request. In the operator's North Sea wells, previous oriented perforating was as much as 45° out of the desired orientation; productivity decreased.

In just five months, Schlumberger engineers designed, tested and deployed a system to perforate in an aligned and oriented fashion while preventing sand production and maintaining productivity.

Realize accurate orientation

Successfully tested and qualified in dogleg severities as high as 10° per 100 ft. Achieve overall orientation accuracy within 10° in a wellbore independent of length or tortuosity.

Benefits

  • Increase productivity
  • Prevent sand production
  • Reduce costs
  • Achieve single-trip oriented perforating of long intervals
  • Achieve larger effective wellbore radius

Frac Gun Perforating Systems

Frac Gun perforating systems are engineered for the fracture stimulation of wells, with additional applications in slimhole wells, sand control operations,

Perforating con't

Perforating Gun Systems and Charges

We provide the two major types of perforating gun systems, customized systems, and other perforating guns for special applications, such as tubing punchers. Regardless of the type of gun or perforating application, gun performance is optimized through design and manufacturing QC, as verified by testing.

The shaped charge is the most critical gun system component to manufacture with maximum quality consistency. Shaped charges are made by assembling four components: case, main explosive pellet, primer, and liner. We manufacture each component to exact tolerances to ensure that the liner collapses to form the jet according to the design of the charge. For routine manufacturing production runs, each charge must perform to a minimum target penetration standard related to API RP 19B Section 1.

Capsule Gun Perforating Systems

Capsule guns—also called "capsule-charge guns"—are exposed gun systems, with the individual shaped charges sealed in pressure-tight protective capsules mounted on a carrier strip or links that are exposed to the well environment.

Capsule guns are typically used in through-tubing perforation applications and generate superior performance compared with hollow carrier guns of the same diameter. Schlumberger capsule guns are developed through an extensive engineering and manufacturing program. They are holistically designed as a system, comprising the carrier strips or links, charges, and detonating cords, to provide maximum perforator performance. The entire capsule gun system is then manufactured following rigorous Schlumberger QA standards.

There are two designs of capsule guns: expendable (the charges and mounting assembly are left as debris after firing) and retrievable (debris is left, but the mounting is recovered). The latter design is also called semiexpendable. Some capsule gun systems have a selectivity option that allows shooting more than one zone per run.

PowerSpiral

The PowerSpiral retrievable perforating gun system for through-tubing wireline operations incorporates shock-absorbing material between the charges to attenuate shock waves during the detonation and significantly increase shot performance.

Enerjet

Enerjet high-performance exposed capsule gun systems for through-tubing operations are available in retrievable and expendable versions.

Pivot Gun

Pivot Gun systems are wireline through-tubing guns with excellent performance, ideal for workover reperforating or shooting past deep formation damage

Hollow Carrier Gun Perforating Systems

Hollow carrier guns are pressure-tight steel tubes in which shaped charges are positioned. For gun ODs of 2 7/8 in and larger, hollow carrier guns perform better than exposed guns because they use larger charges, optimized phasing, and increased shot density. Hollow carrier guns are also used when debris is unacceptable and in hostile conditions that preclude using exposed guns.

Schlumberger hollow carrier guns are designed as systems, comprising specific carriers, charges, detonating cords, and boosters, to provide maximum perforator performance. All Schlumberger gun systems are manufactured to our rigorous QA standards. The main types of hollow carrier guns are
PowerJet Omega Deep Penetrating Shaped Charge

PowerJet Omega deep penetrating shaped charge is the latest-generation PowerJet shaped charge from Schlumberger.
PURE Perforating System for Clean Perforations

The PURE system optimizes dynamic underbalance in the well to consistently eliminate or minimize perforation damage.
HSD High Shot Density Gun Systems

HSD guns have a high shot density of 4 spf or higher with optimum phasing patterns and the largest high-performance charges available for natural, stimulated, and sand control completions. For applications that require a large AOF, the Bigshot 21 gun system provides a shot density of 21 spf.
Port Plug Guns and HEGS High-Efficiency Gun Systems

Port Plug guns shoot the charges through replaceable plugs in a reusable gun carrier and feature highly flexible multiple-gun selectivity for remote operations, enabling the perforation of large intervals with minimal hardware. HEGS High-Efficiency Gun Systems are similar to Port Plug guns, with longer, expendable hollow carriers that are faster to load and run.
OrientXact Oriented Perforating System

Setting new standards for alignment accuracy and verification of charge orientation, the OrientXact tubing-conveyed oriented perforating system is ideally suited for long and high-deviation wells.
Frac Gun Perforating Systems

Engineered for the fracture stimulation of wells, Frac Gun systems have additional applications in slimhole wells, sand control operations, and coalbed methane (CBM) wells.

P4 Post-Perforation Propellant Pulse

The pressure pulse generated from downhole ignition of the gas produced by propellant burning has multiple applications in the oil industry. Propellant is an energetic material that generates a large amount of gas while burning. Of the many energetic materials available, Schlumberger uses a solid propellant chosen on the basis of its safety record, stability, predictable burn, and more than double the volumetric energy of the leading industry propellant.

Schlumberger P4 post-perforation propellant pulse system delivers the maximum energy produced to the formation to enhance nearwellbore treatments. Conveyable on wireline, tubing, or coiled tubing, the P4 system is run stand-alone or in combination with a perforating gun system for a one-step process.

The patented ignition device uses a radially inward burn to produce a predictable burn rate that results in complete deflagration (a fast burn). Because the propellant deflagrates instead of detonating like an explosive, the generated pressure pulse is powerful enough to break the formation without damaging the casing or adjacent plugs or packers. This highly effective method surgically treats intervals that otherwise would not be reached by a standard hydraulic fracturing job; it can also be used as a near-wellbore treatment tool for depleted reservoirs.

Applications

  • Prefracturing treatment to reduce fracturing pressure and improve perforation breakdown
  • One-step enhanced perforating method
  • Wells with zonal isolation complications where other stimulation techniques are not possible
  • Near-wellbore stimulation to bypass skin and improve productivity in depleted reservoirs, horizontal wells, or large intervals requiring local treatment

WPP Wireline Perforating Platform

The WPP Wireline Perforating Platform integrates a rugged arsenal of sensors and actuators for optimizing well productivity while perforating. Use of the WPP platform maximizes flexibility inpositioning perforating guns and enables real-time monitoring of results. Safer, more reliable perforating results from the system’s intelligent control of the downhole power supply.

WPP oriented perforating service provides single-trip conveyance and orientation of perforating guns on wireline, coiled tubing, or a tractor system through tubing into vertical or deviated wells. The WPP motor system rotates the guns into firing position relative to the preferred fracture plane to optimize hydraulic fracturing operations.

The completion imaging configuration of the WPP platform is used to shoot through a tubing string in a multiple completion without hitting parallel strings. The "mapper” tool’s multiple completion string detection and selective shooting of multiple guns provides perforation and production access to reservoirs that would otherwise require a costly and time-consuming workover.

Borehole temperature and pressure data can be acquired by the WPP platform before, during, and after perforating. Interpretation of these real-time data can provide a good indication of the formation pressure and reservoir parameters (permeability and skin effect) to guide operations. Data acquisition is not interrupted by detonator initiation. Up to 20 guns can be connected to the bottom of the tool for selective firing through the use of addressable switch technology

Perforating

Perforating

You want maximum productivity from your reservoir. Whether in new or existing wells, maximum production depends on optimized perforating.

Schlumberger engineered perforating systems can help you achieve the best production or injection in your well by optimizing the relationship between the gun system, wellbore, and your reservoir. Schlumberger perforating systems enable you to

* measure to fully characterize the reservoir rock and fluids
* perforate with the optimum design of gun system and charge
* clean the perforations by controlling wellbore dynamics while perforating
* monitor to maximize reservoir productivity.

Perforating Gun Systems and Charges

Schlumberger offers capsule and hollow carrier gun systems with a wide variety of perforating charges for every environment.
Pipe Recovery and Remedial Services

Schlumberger has solutions for drillpipe, coiled tubing, and tubing recovery and special techniques for cement squeeze, punching tubing, junk shots, and other applications.
Tubing-Conveyed Perforating

Tubing-conveyed perforating (TCP) allows long, heavy gun strings to be run in all well conditions.
Wireline Perforating

Wireline (or electric line) is the traditional way to run perforating guns, providing the advantages of real-time depth control and selectivity.
Completion Perforating

Completion perforating enables large, long strings of guns to be installed with the completion and fired with the right completion fluid in place for immediate cleanup and production.
Completion Perforating Without Killing the Well

The CWOK process uses underbalance, dynamic underbalance (PURE), or extreme underbalance perforating for clean perforations, then removes the guns without killing the well.
Slickline Perforating

Slickline is a fast and efficient conveyance method that can be used for many explosive services such as perforating, setting plugs or packers, or cutting tubing.
Coiled Tubing Perforating

Coiled tubing allows perforating guns to be run into extended-reach or horizontal wells and also allows longer, heavier gun strings to be run.