Tubing Analysis System

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.

Description

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.            

Features

• 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.

CTlife -CT Fatigue Life Prediction Module

• 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.

CTproject - CT Engineering Simulation Module

• 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.