Engineered Fracturing Fluids | Stimulation Treatments | SLB

Engineered Fracturing Fluids

Technology to optimize BroadBand unconventional reservoir completion services

Fracturing Services

Maximize well productivity with effective stimulation

BroadBand unconventional reservoir completion services maximize well productivity while helping to accommodate operator strategies for economics, efficiency, logistics, and risk. With a comprehensive portfolio of engineered fracturing fluids, Schlumberger has the flexibility to deliver effective stimulation treatments regardless of water quality, proppant volume, or location constraints.

Comprising a blend of proprietary fibers and rheology-controlled fluids, composite fluids promote effective proppant transport and placement through the formation of highly conductive channels.
Comprising a blend of proprietary fibers and rheology-controlled fluids, composite fluids promote effective proppant transport and placement through the formation of highly conductive channels.
Composite Fracturing Fluid
Transport proppant more effectively through the tortuous paths of a complex fracture network

During laboratory testing, 8-ft × 4-ft × 0.1-in test panels show that conventional fracturing fluids (left) leave large fractured areas without proppant, indicated by the clear zone on top of the proppant. These areas eventually close and do not contribute to production. Engineered composite fluids (right) prop open each fracture throughout its height and length.

Increase reservoir contact with composite fracturing fluids

Composite fracturing fluids integrate proprietary fibers, additives, and proppant to maximize proppant transport and posttreatment proppant pack conductivity. Compared with conventional fracturing fluids, the composite fracturing fluids transport proppant more effectively through the tortuous paths of a complex fracture network, increasing the effective, propped fracture area.

BroadBand service designs typically use short sweeps of clean composite fracturing fluids to reduce the risk of screenouts and proppant flowback. After pumping ceases, the degradable fibers help suspend the proppant and maintain a heterogeneous distribution until formation closure. When the fluid breaks and fibers degrade, they leave a robust, highly conductive fracture that maximizes oil and gas production and recovery.

Composite fracturing fluids can be designed to optimize any Schlumberger base fluid, including standard slickwater, viscous slickwater, linear gel, viscoelastic gel, and crosslinked gel.

Improve efficiency and flexibility with standard slickwater fluids

Standard slickwater fluids combine available water with minimal additives to simplify operations, achieve economic goals, and maximize reservoir contact. High-molecular-weight polymers are used to reduce fluid friction, enabling efficient but effective BroadBand service designs that transport proppant with high pump rates rather than the viscosity mechanism of conventional guar linear gel and crosslinked systems. Engineered polymer breakers optimize cleanup, improving proppant pack conductivity.

A broad slickwater technology portfolio gives Schlumberger the unique flexibility to accommodate mix-water variations and reservoir and surface conditions that challenge conventional slickwater systems.

Maximize propped conductivity with viscous slickwater fluids

Viscous slickwater fluids combine the simplicity and cleanup of conventional slickwater with the proppant transport benefits of a more viscous hybrid linear or crosslinked gel system. As with conventional slickwater fluids, engineered breaker systems minimize formation and proppant pack damage, further improving their performance as compared with conventional guar-based fluid systems.

With viscosity as high as 100 cP and minimal fluid friction, viscous slickwater fluids enhance proppant-carrying capacity. As a result, engineers can design BroadBand services with aggressive pumping schedules and sand concentrations as high as 5 to 6 lbm/galUS. This reduces total water volume requirements and related costs—without compromising on engineering and production performance.

The viscous slickwater portfolio now offers a high-salinity, high-viscosity friction reducer (HVFR). This fluid provides more flexibility and extends the use of viscous slickwater to diverse water sources up to 300,000 total dissolved solids content. Produced water can be reused with no negative effects on the fluid or production performance. With lower freshwater requirements, flowback water handling, and disposal costs, the high-salinity HVFR is a cost-effective and more sustainable solution for high-volume hydraulic fracturing needs. Download product sheet.

Visualization of sand settling under dynamic flow conditions indicates that a viscous slickwater fluid transports proppant more efficiently compared with a conventional friction reducer as evident.
Visualization of sand settling under dynamic flow conditions indicates that a viscous slickwater fluid transports proppant more efficiently compared with a conventional friction reducer as evident.
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