UNCONVENTIONALS Unconventional Shale Production THE Halliburton Redlift System TM Solving challenges.™ CHALLENGE Maximizing unconventional shale reservoir recovery throughout the life of a well is challenging as rapid depletion, solids, and gas breakout limit production and decrease artificial lift run life. REDL i f t Solution R ange E nvironment D rawdown By partnering with operations on artificial lift technologies and intelligent solutions, Halliburton created the REDLiftTM system, the industry’s most robust system solution to these challenges to increase shale investment returns. Performance The REDLift electrical submersible pumping systems have been installed and are running in the largest shale basins: Permian, Mississippi Lime, and Bakken. Operators recognize the leadingedge technologies and intelligent solutions that address the key challenges they face. The Halliburton REDLift™ System: Allows Producers to Maximize Their Unconventional Shale Reservoir Recovery R E DLift TM System: Range Wide Range Stage Expanded Production Curve Wide Range Stages Variable Speed Drive Advanced Software Electrical submersible pumps (ESP) are designed for a limited production range. Rapid decline can cause premature pump wear, increased interventions, and extended payback of investment. To prevent this, REDLift system pumps are configured to allow for a wider hydraulic operating range. Production decline can be managed through careful, intelligent operation with monitoring automation technologies. Realization of the full expanded production range potential depends on the use of a variable speed drive (VSD) and its advanced software suite that optimizes REDLift system operation. Gas mitigation software specific to Halliburton VSD’s allows REDLift systems to “ride through” gas slugs. The REDLift system offers a suite of wide range (WR) electrical submersible pump (ESP) stages that cover unconventional wells broad production ranges. WR stages accommodate unconventional wells changing inflow and stay in the well longer. Pump Stage Operating Range 400 WR 400 100* to 550 400 WR 1250 370 to 1800 400 WR 1750 440 to 2200 *Based on total volume through pump, which includes liquids and gas. If gas is present, then fluid volumes below 100 barrels per day (bpd) can be handled. 3 The Halliburton REDLift™ System: Allows Producers to Maximize Their Unconventional Shale Reservoir Recovery R E DLift TM System: Environment Abrasion Resistant System Frac proppant migrates back into the wellbore when a pressure drop is created by the pump and enters the pump intake. High solids concentration can plug pump stages and can cause erosion of internal components. To address this, abrasion resistance (AR) is designed throughout the REDLift system. Wide range pumps have AR configured stages that use tungsten carbide inserts to provide radial support for improved sand management. In addition, 100%-coated staging is available for the harshest environments. Halliburton’s Q-MAXTM Gas Bypass System uses coatings, employs hardened liners, and thickens critical components to enable continuous operations in the most abrasive environments. When solids concentrations overwhelm the handling capabilities of the pump, Halliburton can offer a desander, which is designed to filter the sand in the well bore before entering the pump. 4 Abrasion Resistant Pump The Halliburton REDLift™ System: Allows Producers to Maximize Their Unconventional Shale Reservoir Recovery R E DLift TM System: DRAWDOWN Q-MAX™ Gas Bypass System Gas in the well is released as the wellbore pressure is reduced by pump drawdown. Gas comes in slugs and consumes valuable area, restricting and ultimately stopping all liquid flow. Halliburton’s Q-MAX Gas Bypass system is the most efficient gas-mitigation product in the ESP industry by both handling and separating gas. Hundreds of field installations in the largest shale oil basins have shown that Halliburton’s Q-MAX Gas Bypass system Handles more gas operates in higher gas oil ratio (GOR) conditions and allows drawdowns that were previously unattainable. InteLift™ Remote Monitoring System With Halliburton’s Artificial Lift InteLiftTM remote monitoring system and its companion downhole sensor performing 24/7 well monitoring, you have total performance identification and control of your most valuable assets. Users can monitor well performance, optimize pump performance, maximize operational efficiency, and minimize downtime. For increased oil production Provides greater well drawdown 4,000 Mcf/d 200 b/d 650 psi REDLift Gas Competition Gas REDLift Pump Intake Pressure Competition Pump Intake Pressure REDLift Oil Competition Oil Production data from a Mid-Continent operator’s toughest well shows Halliburton’s REDLift system beats the leading competitor’s unconventional system. 5 The Halliburton REDLift™ System: Allows Producers to Maximize Their Unconventional Shale Reservoir Recovery R E DLift System in the Bakken TM In the Bakken, each well was completed with an ESP. One belonged to Halliburton and the other to a competitor. The principal difference was the competitor used a standard rotary gas separator, while Halliburton proposed its REDLift system. The results were overwhelming. Halliburton’s REDLift system extended run life by five months and had an additional drawdown of 300 to 500 psi. With a total production increment of 140,000 bbls, at $75/bpd, the incremental production value is USD 10.5 million. Historical Well Conditions Total Vertical Depth (ft) 9,623 Total Measured Depth (ft) 20,691 Gas Liquid Ratio Technologies • • • • 6 Wide Range Pump Abrasion Resistant System Q-MAXTM Gas Bypass System 24/7 Well Monitoring System 500 to 800 The Halliburton REDLift™ System: Allows Producers to Maximize Their Unconventional Shale Reservoir Recovery R E DLift System in the Permian Basin TM In the Permian Basin, a well’s 3,250 GOR created intermittent operations and threatened the viability of the dual pay zone completion. Halliburton proposed a test in which the well would produce 30 days with a rotary gas separator (RGS), and then the RGS would be replaced with the REDLift system. After 20 days, the RGS’ oil production was 154 bpd with gas lock and intermittent operations. The REDLift system’s oil production was 95% larger at 300 bpd, had continuous operations, and drew the well down from 1,000 to 300 psi. Historical Well Conditions Static Pressure (psi) 1,900 Gas Oil Ratio 3,250 Gas Liquid Ratio 1,444 Technologies • • • • Wide Range Pump Abrasion Resistant System Q-MAXTM Gas Bypass System 24/7 Well Monitoring System 7 The Halliburton REDLift™ System: Allows Producers to Maximize Their Unconventional Shale Reservoir Recovery R E DLift System in the Mississippi Lime TM An operator in Alfalfa County, Oklahoma asked Halliburton to provide its REDLift system in its most challenging well where the competition had underperformed. Halliburton’s REDLift system was chosen for its WR pumps that cover unconventionals’ broad production ranges, its Q-MAX Gas Bypass gas-separation technology, and abrasion resistance system configuration. The results were overwhelming. Halliburton’s REDLift system increased oil production by 160 bpd, increased gas production by 3.2MMcf per day, and had an additional drawdown of 200 psi. Historical Well Conditions Total Vertical Depth (ft) 9,336 Gas Oil Ratio 3,250 Gas Liquid Ratio 1,444 Technologies • • • • 8 Wide Range Pump Abrasion Resistant System Q-MAXTM Gas Bypass System 24/7 Well Monitoring System The Halliburton REDLift™ System: Allows Producers to Maximize Their Unconventional Shale Reservoir Recovery Halliburton Frac to Production From Frac to Production, there is a Halliburton solution for your unconventional challenges. The Frac of the FutureTM program employs a new approach to fracturing that maximizes productivity, minimizes downtime, optimizes the operator’s return on their service investment, and focuses on the HSE aspects of the personnel working, as well as the landowner/operator land, air, and water environmental perspectives. Multi-Chem’s award-winning customized RockOn® surfactants deliver higher initial production rates and greater ultimate recovery at lower overall well costs. Specifically formulated based on core sample testing, each RockOn surfactant is custom tailored to take into account the unique reservoir and fluid characteristics, with options to fit specific environmental requirements. Multi-Chem analyzes the water chemistry in the injection systems for scaling tendencies, and examines any deposits that may have formed to identify scale type. From there, Multi-Chem develops a customized scale-control program and chemical application. This helps maintain production and reduce the potential for pump failure and costly replacement. ZoneGuard® Short Radius and Frac Pack hydraulic-set openhole packers can be used to provide immediate stage isolation between fracturing sleeves. The packer uses a uniquely designed element package with a backup and deployment system to deliver consistent sealing performance in a defined range of openhole and case hole conditions. Halliburton’s REDLift system is the industry’s most robust production system that solves the unconventional shale challenges of rapid depletion, solids and contaminants, and gas breakout so you can maximize the return on your shale investment. For more information on halliburton unconventional products, please visit: halliburton.com/unconventional or email artificiallift@halliburton.com. 9 Halliburton is dedicated to solving unconventional shale production challenges through technology innovations. Halliburton continues to develop improved wide range pumps, innovative coatings, and new gas mitigation products. These technologies help enable increased production and greater uptime by addressing unconventional shale challenges of Range, Environment, and Drawdown. Having contributed to the industry by being the leader in hydraulic fracturing jobs, Halliburton will have solutions, from Frac to Production, to solve your unconventional challenges. All information contained in this book and any accompanying documentation, including without limitation, all informational text, photographs, graphics, images, or other materials (collectively, the “Materials”) as well as all derivative works, may be considered proprietary or confidential and is owned by Halliburton or other third parties who have licensed their material to Halliburton. The Materials are protected by trade secret, copyright, trademark, patent or other U.S. and International intellectual property laws. Any use, reproduction, dissemination, or distribution by any means, including without limitation, electronic or mechanical transmission, recording, storage or retrieval, in whole or in part, is strictly prohibited. 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