TORQUE, DRAG & MECHANICS

Torque & Drag (incl. ERD)

Quantify axial and torsional loads for efficient drilling across ERD and deviated wells.

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Reduce String Stress and Optimize ROP

Torque and drag simulation helps operators quantify frictional forces and predict mechanical limits before field operations. Real-time modeling identifies inefficiencies in tripping speed, tool movement, and drillstring stress. This improves directional accuracy, reduces equipment wear, and extends tool longevity while minimizing downtime.

Core Capabilities

Torque-Drag Modeling

Quantify frictional resistance along drillstring path.

Buckling Prediction

Forecast mechanical buckling in drillstring compression states.

Lubrication and Friction Factor Control

Simulate lubrication effects optimizing torque management.

Simulation Outcomes

Engineers identify high-load zones, adjust string designs, and improve drilling efficiency under realistic conditions.

Benchmarks

OPERATIONAL COMPLEXITY
COMPUTATIONS PER SECOND
10,000
SIMULATION DURATION

Run-Time Engine Utilization

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TORQUE, DRAG & MECHANICS

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Model whipstock placement and kickoff mechanics for reliable sidetrack creation.

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Fishing and Milling Optimization

Plan efficient fishing and milling operations with parameter and tool control.

  • Jar load optimization
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Stuck Pipe Recovery Sequencing

Train and test recovery sequences for differential, pack-off, and key-seat sticking.

  • Sticking mechanism diagnosis
  • Freeing sequence rehearsal
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FAQ

TORQUE, DRAG & MECHANICS

How do we deploy and use this simulation in practice? What hardware tiers are supported?

Deploy on-prem, private cloud, or isolated networks. Supported hardware tiers: X1/X2/X3 simulators, Laptop, and Online. Teams can also rent the Endeavor Experience Center for executive demos, assessments, or multi-crew exercises. Typical session: configure scenario parameters, run the study and or simulation sessions, review KPIs, and export results.

Can we import our own well data and tool parameters? Which formats and integrations are supported?

Yes. Import well data via WITSML 1.4/2.0 or CSV/JSON, or ingest parameters directly through DOT.  Any input from the field—well schematics, logs, tool states, rates/pressures—instantiates a real digital twin of the well for hyper-realistic training and operational planning (Drilling Well on Simulator).  APIs and versioned adapters are customized upon request.

How accurate is this model in real operations, and how do you handle validation and limits?
What inputs and outputs does this simulation produce, and how do we export results?

Inputs typically include the operation configuration—well profile or trajectory, fluid properties, equipment and tool states, boundary conditions, and rate or pressure schedules. Outputs and KPIs capture the scenario’s hydraulic, mechanical, and fluid responses, including pressure and flow behavior across the system, evolving fluid properties, and equipment performance. Results also define , event detection, and time-based cause-and-effect responses to operator actions. Detailed datasets, replays, and assessment metrics can be exported for engineering review, training records, or planning documentation; see the full output list for complete coverage.

What are the security, access control, and support expectations for enterprise deployment?

Enterprise deployments support role-based access control, secure authentication, and encryption of data in transit and at rest. The platform can be deployed on-premise, in private cloud, or in an isolated environment(s) to meet operational and regulatory requirements. Support is provided under defined SLA tiers, with controlled release management and long-term support options available for production environments.