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| The course provides the design an optimum well completion, prediction of Oil and Gas production Rate, type |
| of Artificial lift requirement, design of compression, bottlenecks identification, under-performing wells, |
| prediction of liquid loading and design velocity string. The course will stress the importance of optimizing the |
| flow efficiency and optimize production at low cost. Also provides the discussion on the important |
| technologies in water and sand control, multi-phase pump, stimulation, horizontal & multi-lateral well |
| completion. |
| The course covers both fundamentals and hand-on computer workshop solving class problems and actual |
| well cases using available NODAL analysis software. |
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| Petroleum Engineer, Production Engineer, Reservoir Engineer, Production, reservoir and Drilling Engineer as |
| well as Field Superintendent and Supervisor with some years of experience in this field |
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| - Nodal Analysis and its Applications |
| [NODAL systems analysis approach, Objectives of Nodal Analysis, Actual field cases] |
| - PVT Basics and Multi-phase Flow in vertical and deviated Tubing |
| [Gas condensates, Black oil, Mechanics of muli-phase flow, Vertical and horizontal multi- |
| phase flow correlations, Tubing performance curves, Tuning pressure drop correlation] |
| - Inflow Performance Curve and Well completion Effects |
| [Theoretical IPR’s: Radial Darcy and Horizontal well, Empirical IPR’s: Gas wells Oil wells, |
| Real skin and pseudo skins, Multi-layers, horizontal and multi-laterals, Vertical versus |
| horizontal, Monobore completion] |
| - Total System Analysis |
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• 07-09 October 2009
 Download Register Form |
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