Smart Fracturing Optimization
Hydraulic fracturing, commonly referred to as fracking, is a practice used to extract hydrocarbons from deep shale formations below the surface. Our solution supports precision and safety, monitoring fracking operations in real time with data from sensors and systems to track pressure, fluid flow, and fracture propagation, integrating frack models from subsurface simulation models from specialized software products.More
Hydraulic fracturing, commonly referred to as fracking, is a practice used to extract hydrocarbons from deep shale formations below the surface. Our solution supports precision and safety, monitoring fracking operations in real time with data from sensors and systems to track pressure, fluid flow, and fracture propagation, integrating frack models from subsurface simulation models from specialized software products. Optimization technologies, powered by artificial intelligence and automation, dynamically adjust fluid volumes, pump rates, and proppant concentrations to enhance operational efficiency and maintain safety standards.
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Industry Challenges
Core Challenges in Fracking Operations
Beyond physical operation, equipment wear, pumping, supply chain, safety and environmental challenges, fracking faces a significant integration gap. Vast data from sensors with the subsurface fracture propagation models, and real time monitoring of parameters to ensure real-time fracking optimization.
Distinctive Features
Real-time optimization, integrated data management, predictive analytics, and interactive visualization for safer, more efficient fracking operations.
Frack Design optimization
Automates the selection of fracture parameters (fluid volume, pressure, proppant concentration), scenario simulation and comparative analysis of multiple design strategies, real time adjustment of parameters.
Data Integration and Management
Seamless integration with geological databases, ingestion of historical fracturing and production data and real time data streaming from field sensors and IoT platforms.
Machine Learning and Predictive Analytics
Supervised learning models for fracture design prediction, optimization algorithms (not limited to genetic algorithms, particle swarm optimization, anomaly detection for early identification of operational risks.
Visualization and Monitoring
Interactive dashboards with KPIs, 3D visualization of fracture designs and predictive outcomes, alerts, deviations, and failures.
Key Benefits
- Optimized fracture design, predictive modelling and operational data to optimize real time fracking field operations
- Improves real-time operational decision making and increase safety at the pad
- Reduces environmental footprint
Thought Leadership
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