Analysis of multi-layered commingled and compartmentalized gas reservoirs /
Mohamed Ahmed Abdelsadik Ali Sallam
Analysis of multi-layered commingled and compartmentalized gas reservoirs / تحليل مكامن الغاز المجزئة و الموزعة على عده طبقات Mohmed Ahmed Abdelsadik Ali Sallam ; Supervised Ahmed Hamdi Elbanbi - Cairo : Mohmed Ahmed Abdelsadik Ali Sallam , 2016 - 107 P. : photographs ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Metallurgical Engineering
Assessment of gas reserves in multi-layered commingled and compartmentalized reservoirs depends mainly on proper allocation of gas production either directly through the wells or indirectly between through communicating tanks. This task is a cumbersome and in most cases will lead to inconclusive results especially with minimal pressure and rate data for every layer. The main objective of this research is to present a simple analytical tool which can adapt with these conditions and provide a reliable estimate of original gas in place and production allocation. This was achieved by coupling of Layer Stabilized Flow Model (LSFM) for commingled system with communicating reservoir model (CR) for compartmented reservoirs. The model was verified and applied against several simulation and field cases
Analytical model Commingled and compartmentalized gas reservoirs Production allocation-material balance equation
Analysis of multi-layered commingled and compartmentalized gas reservoirs / تحليل مكامن الغاز المجزئة و الموزعة على عده طبقات Mohmed Ahmed Abdelsadik Ali Sallam ; Supervised Ahmed Hamdi Elbanbi - Cairo : Mohmed Ahmed Abdelsadik Ali Sallam , 2016 - 107 P. : photographs ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Metallurgical Engineering
Assessment of gas reserves in multi-layered commingled and compartmentalized reservoirs depends mainly on proper allocation of gas production either directly through the wells or indirectly between through communicating tanks. This task is a cumbersome and in most cases will lead to inconclusive results especially with minimal pressure and rate data for every layer. The main objective of this research is to present a simple analytical tool which can adapt with these conditions and provide a reliable estimate of original gas in place and production allocation. This was achieved by coupling of Layer Stabilized Flow Model (LSFM) for commingled system with communicating reservoir model (CR) for compartmented reservoirs. The model was verified and applied against several simulation and field cases
Analytical model Commingled and compartmentalized gas reservoirs Production allocation-material balance equation