 |
| |
| Incorporating a balance between theory and application, the course will be focused on training participants |
| for immediate application of acquired techniques to field problem. The course also demonstrate the latest |
| methods for calculating gas well performance from the fundamentals of flow regime and non-Darcy flow to |
| the best methods for testing wells. These include the possibility of improving the performance of older wells, |
| the effect of each system component on total well performance. The course also briefly reviews liquid loading |
| procedures, dehydration and condensate recovery. |
| |
 |
| |
| The course is designed for experienced production, reservoir, and facilities engineers and others involved in |
| gas production. Transportation, and storage including field supervisors. |
| |
 |
| |
| • Gas properties:- Real Gas behavior equations of state, impurities, mixtures, phase behavior dew |
| point, flash calculations, classifying gas reservoirs. |
| • Reservoir performance:- Gas well testing, flow after flow, isochronal, stabilized inflow performance, |
| reserve calculations, P/Z plots. |
| • Flow in pipes and Restrictions:- Pressure loss, -in tubing, -flow lines, -chokes, effects of liquids, - |
| liquid loading, liquid removal methods, multiphase flow corrections. |
| • Compression:- Types of compressors, compressor selection, -reciprocating and centrifugal, effects of |
| variables, capacity and horse power. |
| • Total System Analysis:- Tubing and flow-line size effects, perforating effects, evaluating compressor |
| installations, analyzing injection wells. |
| • Condensate Reservoir:- Reservoir types-wet gas, retrograde, reserve estimation, laboratory |
| simulation, gas cycling. |
| • Field Operations Problems:- Interpreting P/Z plots, hydrate formation. |
| |
 |
| |
| As requested |
| |