Özet:

Hybrid vehicles have started to have a large interest in the automotive sector due to their economic, environmental and performance advantages compared to conventional vehicles. Parallel hybrid vehicles, which are one of the most preferred types of hybrid vehicles, also have significant advantages in terms of flexibility of use and performance. In this study, the effects of gearbox layout in parallel hybrid vehicles on vehicle performance and the efficiency of powertrain system components such as electric motor, battery and internal combustion engine were investigated. Vehicle performance and component efficiency results were obtained by driving cycle simulations for the cases, where the gearbox is before the internal combustion engine or before the electric motor, and the results were compared. The New European Driving Cycle, which is the standard driving cycle, is used in the simulations for the same vehicle characteristics and powertrain system components. The results of powertrain simulation showed that 210 km/h maximum speed, 3.20 m/s2 maximum acceleration, and 1.8 % remaining SOC are found for Design-1, 170 km/h maximum speed, 3.65 m/s2 maximum acceleration, and 4.4 % remaining SOC are found for Design-2 and these parameters can be determined by changing the gearbox layout.

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