د.صابر خالد المبروك2024-11-262024-11-26https://dspace.academy.edu.ly/handle/123456789/387This study, demonstrated a scientific approach to prepare a geomechanical model for Amal reservoir in an oil well in the Sirte basin of Libya. Amal reservoir is one of the most important oil reservoirs in the North Africa that its geomechanical characters are not perfectly known. Moreover; many expected problems such as sand production and production drop occurred in this reservoir that made it necessary to conduct a comprehensive geomechanical model. Also, using poro-elastic formulations, in-situ stress regime was found to be normal to strike-slip (i.e. Sv ≥ SH >Sh). Based on my analysis, the parameter influences most the tendency for sanding is reservoir pressure followed by flowing bottom hole pressure and unconfined compressive rock strength.Sand Production is the migration of the formation sand induced by the flow of reservoir fluids. Sand management has been identified as one of the key issues in field development in over 70% of the world’s oil and gas fieldsSand Production Management using Mechanical Earth Model for Libyan Oil Field (Amal Field-Case Study)