REDA Continuum Unconventional Extended
Transcription
REDA Continuum Unconventional Extended
REDA Continuum Unconventional extended-life ESP APPLICATIONS ■■ Casing 5.5 in or larger ■■ Gassy production environments ■■ Abrasive production environments ■■ Reservoirs with uncertain productivity ■■ Wells with steep production decline ■■ Unconventional shale reservoirs ■■ Conventional oil wells BENEFITS ■■ ■■ ■■ ■■ ■■ ■■ Improves ESP system reliability Increases uptime and extends system run life Improves cash flow through accelerated production and continuous operation Reduces operating cost through superior hydraulic efficiency Enhances performance in gassy and abrasive applications Lowers total cost of ownership FEATURES ■■ Enhanced compression design ■■ Factory-shimmed construction ■■ Abrasion-resistant bearing configuration for ultimate shaft support and stability ■■ Wide operating range ■■ Bowed vane for superior performance ■■ REDA Gard* submersible pump stage design that helps to minimize abrasive stage wear (for the Continuum 4000) The REDA Continuum* unconventional extended-life ESP, a component of REDA* electric submersible pump systems, is a mixed-flow stage pump engineered for unconventional flow behavior and challenging environments. Featuring enhanced compression design and wide opening vanes, the Continuum ESP improves recovery and reliability in gassy and abrasive applications. With the ability to operate at high efficiency through a wide operating range, the Continuum ESP eliminates the need for costly replacements due to production changes, reducing overall operation expenses and optimizing uptime. Superior performance and reliability in unconventional plays Developed using computational fluid dynamics to model stage geometry and architecture, the Continuum ESP is engineered to deliver higher lift, superior efficiency, and reduced power consumption. Its design further improves upon the field-proven high reliability of REDA compression pump designs. The Continuum ESP was extensively tested using state-of-the-art tools and proprietary techniques to model operation at different production rates and fluid conditions, including at low-flow-rate and abrasive conditions. These solutions were validated with an instrumented string test and X-ray visibility in a flow loop test and an accelerated erosion loop test. The optimized geometry, architecture, and material selection of the Continuum ESP allows for a wider operating range, which improves pump performance at low rates, in transient flow, and in abrasive environments. Its enhanced compression design enables Continuum ESPs to operate even at flow rates below the lower limit of the catalogrecommended operating range. The minimum flow rate of the Continuum ESP’s operating range is determined by system constraints, including protector thrust bearing, motor cooling, shaft brake horsepower limit, and system efficiency. Enhanced stability and strength The Continuum ESP offers various radial shaft-support options for a variety of well conditions. The abrasion-resistant configurations feature bearings with bushings and sleeves made out of zirconia, tungsten carbide, or silicon carbide, evenly spaced throughout the pump. The ceramic bushings are mounted within diffusers on two supporting Aflas® O-rings, using the REDA systems’ patented bearing technology. These features allow the bushing to better align to the shaft and minimize vibrations, reducing the risk of damage. For applications with high production of abrasive materials, the full bearing housing keyless sleeve configuration is recommended, with one bushing and sleeve per stage made of either tungsten carbide or silicon carbide. The keyless sleeve design enables uniform stress distribution, which greatly reduces the possibility of cracking under load or from shock impact. REDA Continuum REDA Continuum ESP Specifications Continuum 1000 OD, in [mm] 4.00 [101.6] Stage geometry Mixed flow Recommended operating range, bbl/d at 60 Hz (m3/d at 50 Hz) 200–1,350 [26–179] Efficiency at best efficiency point (BEP), % 68.41 Head per stage at BEP, ft at 60 Hz (m at 50 Hz) 27.66 Burst pressure, psi [kPa] 5,000 [34,474] 6,000 [41,368] (optional) Ni-Resist®, 5530 alloy Carbon steel, Redalloy* high-nickel alloy 0.68 [12.27] 154 (High-Strength MONEL®), 240 (INCONEL® 718) ARZ-ZZ, ARZ-TT, ARZ-SS, FBH-TT-KS, FBH-SS-KS† ARZ zirconia, tungsten carbide, silicon carbide Enhanced compression design, factory-shimmed Stage metallurgy Housing metallurgy Shaft diameter, in [mm] Shaft material and rating at 60 Hz, hp Shaft radial support options Radial bearing material Pump construction Continuum 4000 4.00 [101.6] Mixed flow 3,500–7,000 [556–1,113] 75.17 32.82 6,000 [41,368] Ni-Resist, 5530 alloy Carbon steel, Redalloy alloy 0.87 [22.23] 316 (High-Strength MONEL), 492 (INCONEL 718) ARZ-ZZ, ARZ-TT, ARZ-SS, FBH-TT-KS ARZ zirconia, tungsten carbide, silicon carbide Enhanced compression design, factory-shimmed †ARZ* abrasion-resistant zirconia bearing, zicronia bushing and sleeve; ARZ abrasion-resistant zirconia bearing, tungsten carbide bushing and sleeve; ARZ abrasion-resistant zirconia bearing, silicon carbide bushing and sleeve; full bearing housing, tungsten carbide bushing and keyless sleeve; full bearing housing, silicon carbide bushing and keyless sleeve ft BEP Flow = 984 Head = 27.66 Power = 0.29 Efficiency = 68.41 30 hp Eff 3.00 60% 25 2.50 50% 20 2.00 40% 15 1.50 30% 10 1.00 20% 5 0.50 10% 0 250 500 750 1,000 1,250 1,500 1,600 Capacity (bbl/d) ft BEP Flow = 4,310 Head = 32.82 Power = 1.39 Efficiency = 75.17 35 hp Eff 7.00 70% 30 6.00 60% 25 5.00 50% 20 4.00 40% 15 3.00 30% 10 2.00 20% 5 1.00 10% 2,000 3,000 4,000 5,000 6,000 Capacity (bbl/d) REDA Continuum ESP 1000 (top) and 4000 (bottom) pump curves. *Mark of Schlumberger Other company, product, and service names are the properties of their respective owners. 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