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The paper demonstrates the capability of the commercial Computational Fluid Dynamics (CFD) code AVL FIRE to predict erosive effects due to cavitation. Such flows are of interest within the automotive and other internal combustion (IC) related industries using fuel injection components. Ability to predict such internal flows through CFD allows for improved engine efficiency, decreased emissions and shorter development cycles. Accurate modeling of cavitating flows is a prerequisite for the prediction of erosion effects and is described here. Driving force for erosive damage are the implosions of the bubbles generated due to cavitation and thereafter collapsing on the surface of the exposed material. Therefore, prediction of vapor generation and accurate transport of the bubbles are crucial. Investigated injector featured a single injector body in combination with two different needle (i.e. plunger) designs. The shape of the needle governed the nature of the flow through the injector.