EFFECT OF THE START-STOP SYSTEM ON THE RESOURCE OF THE CAR BATTERY IN THE CITY DRIVE CYCLE

Authors

  • Sarvarbek Yusupov PhD student

Keywords:

intelligent transport system,, start-stop,, drive cycle,, battery,, voltage,, charge,, discharge,, capacity,, electrolyte,, correlation.

Abstract

In this article, the standard battery for the “Intelligent start-stop system” was analyzed in the city drive cycle as an element that provides performance indicators of intelligent transport systems. It was found that the current consumed by the starter when restarting the engine under the conditions set by the system depends on the battery voltage. During the experiment, it was observed that the minimum battery discharge value was between 10.86 V and the maximum value was 11.23 V. The obtained results were mathematically and statistically analyzed, and the correlation coefficient between the measured discharge voltage values of the battery was equal to 1.0. It was concluded that the relation is strong and depends on the technical configuration and power of the battery when restarting the car engine in exploitation conditions.

References

Yusupov S., Inoyatkhodjaev J., Askarov B. Synergetic properties of local application of intelligent transportation systems // Actual issues of development of innovation and information technologies in transport (Russian). - 2022. - T.1. - # 1. - p. 191-195.

Mirzaliev S. et al. Justification of the synergy of innovative intelligent transport systems in local conditions // Proceedings of the 6th International Conference on Future Networks & Distributed Systems. – 2022. – p. 182-193.

Shaheen S.A, Finson R. Intelligent Transportation Systems. // Encyclopedia of Energy. -2004. -p. 487-496.

Hasegawa T. Intelligent Transport Systems. Chapter 5. Saitama University. -Japan. -2004. –p. 50-60.

Yusupov S., Inoyatkodjaev J. Analysis of synergistic properties of intelligent transport systems with road infrastructure elements // Central Asian Journal of STEM. – 2022. – T.3. – # 2.

Azizov K.H., Darabov M., Sayfutdinova P.A. Ensuring traffic safety on urban streets (Russian). -T.: TADI, 2009. - p. 132.

Azizov K.H. Fundamentals of traffic safety of mixed automobile-tractor flows (Russian). - T.: "Fan", 2008. - p. 185.

K.H. Azizov Basics of organization of traffic safety (Uzbek). T: "Fan va texnologiya", 2009. - p. 244.

Yusupov S.S. Synergetic Properties of the Interaction of the Vehicle with the Element of Road Infrastructure in Urban Driving Modes. – 2022.

Yusupov S.S., Inoyatkhodjaev J.Sh. Determining the congestion times and energy saving characteristics of a vehicle in city driving cycle through an intelligent transport system. // Technical science and innovation journal. Tashkent State Technical University named after Islam Karimov. –Tashkent. -2021. -Vol.2. –p.p. 263-273.

Debelov V.V., Kozlovskiy V.N., Pyanov M.A. Electrical and software control complex of the internal combustion engine of a passenger car. (Russian) // Electrotechnical and information complexes and systems. Russia., -2015., # 1(11). -p.p. 73-83.

Yusupov S.S., Inoyatkhodjaev J.Sh. The issues of solving environmental problems in the field of road transport using intelligent transport systems. // International scientific and technical journal “Innovation Technical and Technology”. ISSN: 2181-1067. – Uzbekistan. -2021. -Vol. 2(1). - pp. 14-20.

AVTOMOBILLAR. https://uzautomotors.com.

Standard 3311:2018 of the Uzstandard Agency dated April 13, 2018 # 05-947 “Approximate program and method for conducting control climatic tests of vehicles in the natural climatic conditions of the Republic of Uzbekistan.” www.lex.uz.

Yusupov S., Inoyatkhojaev J. Analysis of vehicle energy efficiency and test results using an intelligent start-stop system of the vehicle on the new European drive cycle at the Piskent auto polygon.: analysis of vehicle energy efficiency and test results using an intelligent start-stop system of the vehicle on the new European drive cycle at the Piskent auto polygon //Acta of Turin Polytechnic University in Tashkent. – 2021. – T. 11. – # 1. – p.p. 16-26.

Yusupov S. Synergetic properties of vehicle to infrastructure in urban driving modes: synergetic properties of vehicle to infrastructure in urban driving modes //Acta of Turin Polytechnic University in Tashkent. – 2022. – T. 12. – # 2.

Sodiqovich Y.S., Shukhratullaevich I.J. Analysis of test results using an automatic start-stop system in vehicle driving modes //Open Journal of Science and Technology. – 2021. – T. 4. –# 2. – p.p. 77-84.

Usmanov U., Yusupov S. The Engine emissions and fuel consumption assessment for the stop-start system implemented compression-ignition internal combustion engine // Acta of Turin Polytechnic University in Tashkent. – 2022. – T. 12. – # 2.

Makhmudov G.N. Electrical and electronic equipment of automobiles. - Textbook. - 3rd edition, revised and expanded (Uzbek). - T.: Publishing house “Navruz”, -2018. -Vol. 320.

Engineering ToolBox, (2009). Rechargeable Batteries Life Calculator. [online] Available at: https://www.engineeringtoolbox.com/rechargeable-batteries-d_1219.html [Accessed 11. 01. 2022].

Published

2023-09-27

How to Cite

Yusupov, S. (2023). EFFECT OF THE START-STOP SYSTEM ON THE RESOURCE OF THE CAR BATTERY IN THE CITY DRIVE CYCLE. Acta of Turin Polytechnic University in Tashkent, 13(2), 30–38. Retrieved from https://acta.polito.uz/index.php/journal/article/view/226

Issue

Section

Technical Science and Engineering