Revolutionary Technology
Our patented well recompletion technology delivers unprecedented results through innovative engineering and proven field applications
F.A.S.T. Technology
Economic Advantage
F.A.S.T. technology delivers significant cost savings over liner refracturing operations, with expected savings of $2.0MM+ per horizontal well. Eliminate expensive liner installations, reduce completion time by 10+ days, and achieve superior production results through comprehensive cluster treatment. Enhanced recovery of 35%+ over conventional liner refracs provides compelling economics that transform marginal recompletion projects into high-return investments.
Tool Description
F.A.S.T. technology's revolutionary flow-controlled valving system enables operators to control downhole operations simply by adjusting surface pump rates. Below 3 BPM, fluids flush through the bypass for circulation and stage transitions. Above 3 BPM, treatment fluids stimulate through precision ports. If treatments encounter problems, operators can instantly drop pump rates to flush tubing through the bottom of the tool and safely continue to the next stage. This eliminates the risk of getting stuck while attempting to circulate fluids out through the annulus past open perforations - a critical advantage over conventional systems that must reverse-circulate through their tool strings.
Operational Advantages
Eliminate frac plug use and drill-out operations, saving weeks of completion time. Rapid stage transitions in as little as 5 minutes through simple upward pull to release packers and reposition. No wireline runs between stages with pre-perforated wells. Unique packer design enables quick reset and repositioning for multiple stage operations, dramatically reducing operational complexity compared to conventional systems.
Technical Capabilities
Enhanced completion flexibility to add and stimulate pay above, below, or between existing perforations. Flow-actuated stimulation ports deliver precision treatment placement at rates up to 20 BPM. Broad fluid compatibility with acid, xylene, and most treatment systems. Customizable packer spacing to match well geometry with integrated well control and optional shear-off release for challenging conditions.
F.A.S.T. Tool
US Patent 12,180,801 B2
F.I.N.D. Technology
Precision Stimulation
Fracture or acid stimulate at up to 20 BPM with precise placement and control, delivering treatments to specific clusters while maintaining isolation from adjacent zones for optimal completion efficiency.
Cluster Performance Analysis
Isolate individual perforation clusters for production testing, flow profiling, and fluid sampling to determine production rates, water cuts, and reservoir connectivity, enabling data-driven decisions for restimulation or selective intervention.
Selective Water/Gas Shutoff
Target and isolate specific clusters producing excessive water or gas, enabling selective chemical treatments, conformance control, or permanent isolation while preserving production from oil-producing intervals.
Wellbore Integrity & Repair
Comprehensive casing integrity testing, leak detection, and repair capabilities with cement-compatible zonal isolation, ensuring wellbore reliability and extending productive life through advanced diagnostic techniques.
Enhanced Recovery Operations
Deploy targeted chemical treatments, scale inhibitors, corrosion inhibitors, or biocides to specific problem clusters for enhanced oil recovery and wellbore maintenance optimization.
Reservoir Management
Pressure maintenance through selective water or gas injection, tracer studies for connectivity mapping, and reserve assessment in specific zones for comprehensive reservoir development planning.
Cross-Flow Detection & Control
Identify and quantify fluid movement between zones, detect communication pathways, and implement corrective measures to optimize production allocation and prevent reservoir interference.
Production Optimization
Real-time pressure depletion mapping, cluster-specific performance monitoring, and completion design validation to optimize spacing decisions and long-term reservoir development strategies.
Environmental & Abandonment
Selective plug and abandon operations, environmental remediation of contaminated zones, and precise isolation capabilities for regulatory compliance and wellbore decommissioning procedures.
Hyper-Scratcher™
Applications
Production restoration for vertical, deviated, and horizontal wells. Jetting of acid and chemical treatments. Removal of scale, paraffin, and asphaltene build up. Pre-frac liner installation preparation to prevent expensive mis-runs and ensure effective cement jobs by properly cleaning casing walls.
Key Features
Increased production/injectivity from perforations. Jet and brush in a single trip. Full 360° brush coverage (double helix pattern). Full 360° jet coverage (x3). Extremely rugged design. Field redressable. Low-cost operation compared to traditional wellbore cleaning methods. Comes with a 30-micron stainless steel strainer located directly above the tool, ensuring only clean fluid is jetted into the annulus. Fully field redressable and ready for the next well in less than an hour.
See It In Action
Watch the Hyper-Scratcher™ tool in operation, demonstrating its powerful jetting capabilities and 360° cleaning coverage. This video shows the tool's effectiveness in removing scale, paraffin, and asphaltene buildup from perforations. Our field demonstration captures the tool's real-world performance and precision jetting action.
Jetting demonstration and cleaning process
Proven Results
Over 500 runs to date across multiple basins. University of Wyoming Enhanced Oil Recovery Institute 10-well study (November 2020) showed production improvement in 7 out of 8 wells tested, with improvements ranging from 20% to 120%. Horizontal well production gains ranged from 1,500 to 5,000 bbls oil recovered over 10-month trial period.
Enhanced Oil Recovery Institute - November 2020
Hyper-Scratcher™ Tool
US Patent 8,356,662
Downhole Perforation Image
Before & After Cleaning Results
Intelligent Recompletion Platform
Comprehensive Data Integration
Access to complete industry datasets including production histories, well data, and completion details, integrated with leading geological platforms for comprehensive subsurface analysis and candidate evaluation.
Advanced Reservoir Analytics
Utilize industry-leading software suite for rate transient analysis, decline curve analysis, and pressure buildup interpretation to understand reservoir performance and identify underperforming completion intervals.
AI-Powered Target Identification
Machine learning algorithms analyze integrated geological, completion, and production data to identify optimal recompletion candidates with highest probability of success and economic returns.
Predictive Performance Modeling
Advanced AI models predict production enhancement outcomes, optimize stimulation parameters, and forecast economic performance to maximize recompletion investment returns.
Integrated Data Explorer
Unified platform combining geological interpretation, production analytics, and completion data in a single interface, enabling comprehensive candidate screening and multi-disciplinary analysis workflows.
Intelligent Program Design
Machine learning-driven optimization of recompletion programs, including treatment selection, fluid design, and operational parameters, backed by predictive analytics and risk assessment modeling.
