Optimization of well trajectory and mud weight using integrated mechanical earth model : A case study from the Gulf of Suez /
Ahmed Mohamed Ibrahim Abdelfatah Elbatal
Optimization of well trajectory and mud weight using integrated mechanical earth model : A case study from the Gulf of Suez / الاختيار الانسب لوزن الطفلة والاتجاه الانسب لحفر الابار باستخدام نموذج ميكانيكى متكامل للارض : تطبيق على منطقة خليج السويس Ahmed Mohamed Ibrahim Abdelfatah Elbatal ; Supervised Abdelsattar A. Dahab , Abdulaziz M. Abdulaziz , Ali Elsayed Farag Farag - Cairo : Ahmed Mohamed Ibrahim Abdelfatah Elbatal , 2020 - 129 P. : charts , maps ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Metallurgical Engineering
The Wellbore stability problems cost the petroleum industry billions of US dollars each year.Those problems range from drilling operations, completion and production, workovers, to EOR (Enhanced Oil Recovery).The expected problems are borehole breakout or collapse, drill pipe sticking, sand production, formation compaction, casing collapse, etc. In the presented research; three fieldsfrom the south central of Gulf of Suez have been studied, focusing on the wellbore stability occurred while drilling, to predict the optimum mud weight window for each inclination and azimuth, stability of the rock for underbalance drilling, and anticipated drilling problems
Mechanical Earth Model Pore pressure Wellbore Stability
Optimization of well trajectory and mud weight using integrated mechanical earth model : A case study from the Gulf of Suez / الاختيار الانسب لوزن الطفلة والاتجاه الانسب لحفر الابار باستخدام نموذج ميكانيكى متكامل للارض : تطبيق على منطقة خليج السويس Ahmed Mohamed Ibrahim Abdelfatah Elbatal ; Supervised Abdelsattar A. Dahab , Abdulaziz M. Abdulaziz , Ali Elsayed Farag Farag - Cairo : Ahmed Mohamed Ibrahim Abdelfatah Elbatal , 2020 - 129 P. : charts , maps ; 30cm
Thesis (M.Sc.) - Cairo University - Faculty of Engineering - Department of Metallurgical Engineering
The Wellbore stability problems cost the petroleum industry billions of US dollars each year.Those problems range from drilling operations, completion and production, workovers, to EOR (Enhanced Oil Recovery).The expected problems are borehole breakout or collapse, drill pipe sticking, sand production, formation compaction, casing collapse, etc. In the presented research; three fieldsfrom the south central of Gulf of Suez have been studied, focusing on the wellbore stability occurred while drilling, to predict the optimum mud weight window for each inclination and azimuth, stability of the rock for underbalance drilling, and anticipated drilling problems
Mechanical Earth Model Pore pressure Wellbore Stability