Customization: | Available |
---|---|
After-sales Service: | Provided |
Warranty: | 1 Year or 2000hours |
Suppliers with verified business licenses
What is A Tubing Analysis System? TAS is a computer program designed to perform various calculations and simulations often needed in tubular applications. TAS is used as a Coiled Tubing Job Simulator, designing velocity strings, drill pipe applications, under balanced drilling, coiled tubing drilling, cementing, and wireline simulations.
Jereh tubing analysis system (JTAS) is self-developed by Jereh for coiled tubing simulation analysis and engineering designs which can accurately analyze and predict the force imposed on tubing, fatigue life consumption and pressure gradient during in-hole and out-hole operation and thus helps engineers with job design and risk assessment.
Mature theoretic model for analysis of string dynamics, fluid mechanics and fatigue based on field data ensures accurate calculation;
Software input, output and operation are in table format for convenient comparisons between different working conditions;
Accurate simulation and analysis helps with job design and improves efficiency and safety;
Tubing fatigue life tracking and prediction realizes life-cycle management and maximizes the benefits;
Real time analysis and monitoring of tubing strength offers guidance for jobs to prevent emergencies.
Track and predict the fatigue life consumption of CT during operations;
Simulate & analyze the sensitive parameters such as tubing size, materials, pressure, weld and erosions;
Compatible with multi-format job data (mdb, csv);
Support real-time and historical job analysis;
Real-time monitoring of tubing strength.
Determine the forces & stresses along the length of the CT;
Calculate how far CT can be pushed in a horizontal well;
Determine the safe working limits for a string within the well;
Calculate the pressure drop and velocity of fluids in tubing & wellbore;
Analyze the hydraulics sensitive parameters & calculate the particles settling velocity;
Applicable to liquids, gases, foams and multi-phase fluids.