Design and analysis (aerodynamics) of the new engine cover for open Lab Report

Design and analysis (aerodynamics) of the new engine cover for open wheel climb race car in by using CFD (computational fluid dynamics). [2500 words] - Lab Report Example At first, the investigation will revolve around the models of turbulence like Shear Stress Transport (SST) and Spalart Allmaras (SA). These models are the best suited for the Computational Fluid Dynamics research. In practice, the Spalart Allmaras (SA) model meritoriously produce good Computational Fluid Dynamics simulations in relation to performance on the cost and stability. The model is suited for meshes without structure. However, Shear Stress Transport (SST) is on the basis of k-epsilon and k-omega baselines. K-epsilon is for the parts of the body that are a bit far from the wall while K-omega model is applicable on the parts near walls. The design model, will have a design of low level engine covers for the new car in a way of cutting down the area at the front of the car. On the basis of the nature science, the new model is created in a way of reducing the coefficient of the drag as one of the aerodynamic forces. This on the assumption that the engine cover is capable of reducing the drag as a result of a decreased area at the front of the car. The small area at the front induced by low height engine cover aids in decreasing the parts of vortices and turbulence near the engine covers and cockpits. This way, the rear wing is capable of developing an excess downward force, on condition the flow is continuous. The vital fact thus is knowledge of the best way to decrease the vortices and turbulence (complex flow). The lab was also effective in perfoming Computational Fluid Dynamics simulation on the helmet. This is the first design established in the process which incorpiorates the engine cover as a way of investigating the regions of flow near the cockpit in each section. The design of the second car is aimed at discovering new ways on basis of high hill engine cover. In accordance to the first simulation result, unstable airflow is developed. A high