Design peculiarities aspects of electrifi ed vehicles with a combined power unit based on fuel cells

Introduction (problem statement and relevance). The problem of environmental pollution has been especially acute in recent decades. Vehicle manufacturers are putting a lot of effort and money into developing alternative energy sources. One of these sources is the fuel cell.

The purpose of the study was a general analysis of the parameters of power units of passenger and freight vehicles that used fuel cells.

Methodology and research methods. Based on a virtual experiment a regression analysis to calculate the fuel cell required power was carried out depending on the load and conditions of vehicle movements.

Scientifi c novelty and results. Simulation modeling of various lithium-ion traction batteries as part of a combined power unit of a vehicle has been carried out. Simulation modeling was carried out in order to determine the energy balance of a combined power unit in the urban cycle, taking into account the variation in the parameters of the cycle load and energy consumption for the auxiliary systems of the electrobus.

The practical signifi cance of the analysis performed and the dependencies obtained lies in the fact that they can be used when selecting the power of fuel cells in the design of a large class passenger vehicle.

1. Karpukhin K., Terenchenko A., Kolbasov A. The creation of modern electric vehicles with additional source of energy. IOP Conference Series: Earth and Environmental Science, 2018, vol. 159, pp. 306–310.

2. Kuzyk B.N., Yakovets Yu.V. [Russia: a strategy for the transition to hydrogen energy]. Moscow, Institut ekonomicheskikh strategiy Publ., 2007. 400 p. (In Russian)

3. Landgraf I.K., Kasatkin M.A. [Independent energy for the oil industry. Creation of autonomous power units on fuel cells for infrastructure facilities of the oil and gas complex and the shipbuilding industry]. Available at: https://magazine.neftegaz.ru/articles/tekhnologii/619046- nezavisimaya-energetika-dlya-neftyanki-sozdanie-avtonomnykh-energoustanovok-na-toplivnykh-elementakh/ (accessed 05 August 2020). (In Russian)

4. Polyakova T.V. [State and prospects of hydrogen energy in Russia and the world]. Moscow, Tsentr global’nykh problem IMI Publ., 2008. (In Russian)

5. Lohse-Busch H., Stutenberg K., Duoba M., Liu X., Elgowainy A., Wang M., Christenson M. Automotive fuel cell stack and system effi ciency and fuel consumption based on vehicle testing on a chassis dynamometer at minus 18°C to positive 35°C temperatures. Journal of Hydrogen Energy, 2019, vol. 45, issue 1, pp. 1–12.

6. Tuan N., Karpukhin K., Terenchenko A., Kolbasov A. World Trends in the Development of Vehicles with Alternative Energy Sources. ARPN Journal of engineering and applied sciences, 2018, no. 13, pp. 2535–2542.

7. Hydro K. Hydrogen Cars Now. Available at: http:// www.hydrogencarsnow.com/ (accessed 28 July 2020).

8. Brandon N.P., Ruiz-Trejo E., Boldrin P. Solid Oxide Fuel Cell Lifetime and Reliability. Chennai, Elsevier Ltd., 2017.

9. Grishkevich A.I. [Vehicles: Theory. Textbook]. Minsk, Vysshaya shkola Publ., 1986. 206 p. (In Russian)

10. Sokolovskaya I.Yu. [Complete factorial experiment]. Novosibirsk, NGAVT Publ., 2010. 3 p. (In Russian)

11. Tarasov B.P. [About applied scientifi c research on the topic “Development and creation of a hydrogen backup power supply and energy storage system”]. Chernogolovka, IPKhF RAN Publ., 2014. (In Russian)

12. Karpukhin K., Terenchenko A. EVS 2017 – 30th International Electric Vehicle Symposium and Exhibition. The specifi city of the popularization of hybrid and electric vehicle in the Russian Federation, 2017.

13. Zhihong Y., Donald Z., Anima B. An innovative optimal power allocation strategy for fuel cell, battery and supercapacitor hybrid electric vehicle. Journal of Power Sources, 2011, no. 196, pp. 2351–2359.

14. Mehrdad E., Gao Y., Longo S., Ebrahimi K.M. Modern Electric, Hybrid Electric, and Fuel Cell Vehicles. Boca Raton, London, New York, CRC Press is an imprint of Taylor & Francis Group, an Informa business, 2018.