Russian Federation
Voronezh, Voronezh, Russian Federation
Russian Federation
The article considers an integrated approach to increasing the energy efficiency of motor transport, which consists in simultaneous and interrelated optimization of the power unit and vehicle weight. It is proved that the synergistic effect of the combination of modern engines, electric drives and promising lightweight materials is a key factor in achieving new standards of environmental friendliness and efficiency.
energy efficiency, powertrain, lightweight materials, synergy, weight reduction, electric vehicle, hybrid car, carbon fiber (CFRP), regenerative braking, downsizing
1. Akimov, V. V. Perspektivnye napravleniya povysheniya energoeffektivnosti transportnyh sredstv / V. V. Akimov, I. P. Ivanov // Avtomobil'naya promyshlennost'. – 2022. – № 5. – S. 12–15. DOI: https://doi.org/10.7256/2454-0757.2023.12.69200
2. Belov, M. L. Primenenie legkih materialov v avtomobilestroenii: obzor sovremennyh tehnologiy / M. L. Belov, A. S. Petrov // Vestnik mashinostroeniya. – 2023. – № 10. – S. 25–29.
3. Vasil'ev, A. N. Optimizaciya silovyh agregatov dlya povysheniya toplivnoy ekonomichnosti / A. N. Vasil'ev // Dvigatelestroenie. – 2021. – № 3. – S. 30–34.
4. Ivanov, D. S. Sinergeticheskiy effekt primeneniya legkih materialov i optimizirovannyh silovyh ustanovok v avtomobilestroenii / D. S. Ivanov, P. R. Sidorov // Transportnye sistemy i tehnologii. – 2024. – № 1. – S. 45–50.
5. Kozlov, S. A. Analiz vliyaniya massy avtomobilya na rashod topliva / S. A. Kozlov // Avtotransportnoe predpriyatie. – 2022. – № 8. – S. 35–39.
6. Petrov, I. I. Perspektivy ispol'zovaniya kompozicionnyh materialov v konstrukcii kuzova avtomobilya / I. I. Petrov // Kompozitnye materialy. – 2023. – № 2. – S. 18–22.
7. Sidorov, A. V. Sovremennye tendencii razvitiya silovyh agregatov dlya legkovyh avtomobiley / A. V. Sidorov // Avtomobil'nyy transport. – 2021. – № 6. – S. 20–24.
