Multiphase well test analysis /
Shahenda Mohamed Abdallah Mahran
Multiphase well test analysis / تحليل اختبارات الأبارفى الأنظمة متعددة الأطوار Shahenda Mohamed Abdallah Mahran ; Supervised Ahmed H. Elbanbi - Cairo : Shahenda Mohamed Abdallah Mahran , 2015 - 170 P. : facsimiles ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Metallurgical Engineering
The main objective of this research is to provide a new generalized multiphase pseudo-pressure function which is able to analyze pressure transient data whatever the multiphase flow system. In addition, the traditional multiphase well test analysis approaches are investigated and compared using significant number of numerical simulation runs with variable fluid properties and flow conditions. Moreover, the effect of using different inner boundary conditions such as a fully penetrating vertical well, horizontal well, and hydraulically fractured well on the accuracy of the different multiphase pressure transient analysis methods is investigated as well. In this work, the results of applying three multiphase pressure transient analysis methods (single phase analysis using composite model, Perrine Martin, multiphase pseudo-pressure function general form) on pressure transient tests that were simulated in different multiphase flow systems and three inner boundary conditions are presented. This new form provides the best results compared with the available multiphase analysis techniques. The conclusions and recommendations were used in the analysis of several actual tests under multiphase conditions
Multiphase flow system Multiphase pseudo-pressure function Perrine martin method
Multiphase well test analysis / تحليل اختبارات الأبارفى الأنظمة متعددة الأطوار Shahenda Mohamed Abdallah Mahran ; Supervised Ahmed H. Elbanbi - Cairo : Shahenda Mohamed Abdallah Mahran , 2015 - 170 P. : facsimiles ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Metallurgical Engineering
The main objective of this research is to provide a new generalized multiphase pseudo-pressure function which is able to analyze pressure transient data whatever the multiphase flow system. In addition, the traditional multiphase well test analysis approaches are investigated and compared using significant number of numerical simulation runs with variable fluid properties and flow conditions. Moreover, the effect of using different inner boundary conditions such as a fully penetrating vertical well, horizontal well, and hydraulically fractured well on the accuracy of the different multiphase pressure transient analysis methods is investigated as well. In this work, the results of applying three multiphase pressure transient analysis methods (single phase analysis using composite model, Perrine Martin, multiphase pseudo-pressure function general form) on pressure transient tests that were simulated in different multiphase flow systems and three inner boundary conditions are presented. This new form provides the best results compared with the available multiphase analysis techniques. The conclusions and recommendations were used in the analysis of several actual tests under multiphase conditions
Multiphase flow system Multiphase pseudo-pressure function Perrine martin method