Hydrodynamics is the interpretation of subsurface fluids and pressures to explain and predict hydrocarbon occurrence and trapping. Different models of fluid flow and hydrocarbon entrapments were constructed for the Mishrif Formation in (Rumaila South RU, Rumaila North R, West Qurna WQ, Majnon MJ, and ZubairZB) oilfields in Basra, southern Iraq. The dynamic flow within the oil reservoir was analyzed by measuring the specific gravity, hydrostatic pressure, hydrodynamic pressure, pressure gradient, salinity and hydraulic head. Fluid saturation in the pore space, hydrodynamic parameters, density, permeability and buoyancy influence fluid flow. The hydrodynamic model indicates that the oil fields are non-isolated reservoirs with a uniform pressure system. They are characteristic of an intermediate hydrodynamic  environment between the WQ and R, a semi-static environment between R and RU, an extremely dynamic environment in the MJ oil field, and a moderately dynamic environment in ZB. Oil potential models demonstrate that fluid flow is influenced by reservoir pressure, resulting in the accumulation of hydrocarbons in specific locations. These locations include the R oil field, the northeastern half of the MJ oil field, and the western part of the ZB area. The Ru, MJ, and ZB oil fields exhibited anomalous pressure conditions likely caused by a permeable or localized barrier. Oil migrates from areas of high potential energy in the WQ and RU oil fields to the R fields, where potential energy is low in MJ. Conversely, in the Zubair field, oil flows in a northeast direction, descending along the inclined slope.