Drilling Optimization Software

 

Halliburton's industry-leading drilling optimization software applications have been developed to support service delivery and provide a detailed knowledge of many aspects of the drilling operation for both planning and during real-time operations. Software includes:

Connection Flow Monitor Software (CFM)
Automated Mud Flow Characterization for Early Detection of Kicks and Wellbore Breathing: Provides early detection of changing conditions and triggers alarms to alert the engineer.
Drillworks® Pore Pressure Prediction and Geomechanical Analysis Software
An integrated pore pressure and geomechanics solution that helps operators drill deeper, faster, and safer with fewer surprises.
DrilSaver™ III Vibration Monitoring System
System that identifies and measures the magnitude of drilling vibrations through the high speed sampling and analysis of surface drilling parameters.
EWS Early Warning System
Allows rapid response to any unpredicted change in the mud flow or standpipe pressure.
Max3Di™ Drilling Optimization Software
Sperry Drilling services' innovative Max3Di software represents a step-change in process monitoring for directional drilling.
MaxActivity™ Rig Floor Activity Monitoring Software
MaxActivity™ innovative time/depth software tracks and times rig floor activities (trips in and out of the hole, circulating, drilling and connection operations) giving operators the information they need to pinpoint and address problems that consume time and erode profits.
MaxBHA™ Design Software
MaxBHA™ software transforms the art of BHA design into science, providing a state-of-the-art solution for improving well placement, drilling performance and tool reliability through real-time modeling of critical rotary speed and sag correction.
MaxDrill™ Drilling Efficiency Software
Innovative software calculates the efficiency of the drill bit in real time in relation to formation type and rock strength and provides the driller with recommendations on the drilling parameters, expected rate of penetration and projected bit wear.

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