WORKING PROCESS OF CELLS AND BATTERIES

Daminov O O; Juraboev A Z; Kersten S

100

Electric vehicles (EV)s have been in existence ever since the inception of the
automobile. However, in the early race for dominance, the internal combustion engine (ICE)
quickly. Overtook the EV as the prime propulsion power system for road vehicles. Although
the electric powertrain was superior in terms of performance and energy conversion
efficiency, the restrictive factor remained the source of electrical energy. Battery powered
vehicles simply could not match the high-energy density, abundant supply and logistical
attributes of petroleum based propulsion. Even with ICE energy conversion efficiency figures
of below 20%, the energy density (Joules/kg) of petroleum far surpasses the energy density of
any known battery technology. While economically recoverable petroleum deposits continue
to diminish, the automobile population is ever increasing, causing cities to become congested
with toxic hydrocarbons by-products. As a result, the ICE is increasingly becoming a target of
environmental debates. The article analyzes difference between cells and batteries, what is
cell and battery, consisting of battery pack, working process cells and batteries, charge and
discharging processes of cells and batteries, connect cells and batteries in series and parallel,
a number of principal components cells and batteries, primary and secondary cells and
batteries.

Jurnal nomiTechnical science and innovation
Nashr soni2022, №2(12)
Ko'rishlar soni 100

Internet havola

DOI

UzSCI tizimida yaratilgan sana 07-09-2022

O'qishlar soni 100

Nashr sanasi 30-08-2022

Asosiy tilIngliz

Sahifalar134-140

Kalit so'z

cell

battery

energy source

negative electrode

a positive electrode

the electrolyte

a separator

English

Electric vehicles (EV)s have been in existence ever since the inception of the
automobile. However, in the early race for dominance, the internal combustion engine (ICE)
quickly. Overtook the EV as the prime propulsion power system for road vehicles. Although
the electric powertrain was superior in terms of performance and energy conversion
efficiency, the restrictive factor remained the source of electrical energy. Battery powered
vehicles simply could not match the high-energy density, abundant supply and logistical
attributes of petroleum based propulsion. Even with ICE energy conversion efficiency figures
of below 20%, the energy density (Joules/kg) of petroleum far surpasses the energy density of
any known battery technology. While economically recoverable petroleum deposits continue
to diminish, the automobile population is ever increasing, causing cities to become congested
with toxic hydrocarbons by-products. As a result, the ICE is increasingly becoming a target of
environmental debates. The article analyzes difference between cells and batteries, what is
cell and battery, consisting of battery pack, working process cells and batteries, charge and
discharging processes of cells and batteries, connect cells and batteries in series and parallel,
a number of principal components cells and batteries, primary and secondary cells and
batteries.

Kalit so'z

cell

battery

energy source

negative electrode

a positive electrode

the electrolyte

a separator

№ Muallifning F.I.Sh. Lavozimi Tashkilot nomi

1 Daminov O.O. teacher TSTU

2 Juraboev A.Z. teacher TSTU

3 Kersten S.. teacher Technische Universitat Dresden

№ Havola nomi

1 K. Mallon., F.A. Assadian. Study of control methodologies for the trade-off between battery aging and energy consumption on electric vehicles with hybrid energy storage systems. “Energies”, 2022. 15

2 L. Plett. Battery management systems volume i battery modeling. “Artech house”, 2015

3 A.Z. Zhuraboyev., O.O. Daminov. Battery analysis for electric vehicles. collection of reports of the republican scientific and practical conference. “The role of intellectual youth in the development of science and technology”, 2021. 262

4 F.Sh. Umerov., J.B. Mirzaabdullaev., A.I. Yangibaev. Mechatronic liability systems car control. International scientific and technical journal. “Innovation technical and technology”, 2021.88

5 A. Kachhwaha., G.I. Rashed., A.R. Garg., O.P. Mahela., B. Khan., M.B. Shafik., M.G. Hussien. Design and performance analysis of hybrid battery and ultra-capacitor energy. “Storage system for electrical vehicle active power management. sustainability”, 2022

6 G. Pistoia. “Electric and hybrid vehicles. elsevier science”, 2021

7 F.Sh. Umerov. Peculiarities of self-diagnostics of mechatronic systems of engines and transmissions of cars. Proceedings of international scientific and technical conference on “problems and prospects of innovative technique and technology in agri-food chain. “International journal of innovations in engineering research and technology (ijiert)”, 2020. 58

8 N.R. Yuldashova., O.O. Daminov Comparative analysis of electric vehicles with internal combustion engines a collection of reports of the Republican scientific and scientificpractical conference. “Current problems of ensuring the continuity of maintenance of modern cars in our country and their effective solutions”, 2021. 129

9 D. Linden., T. Reddy. “Linden's handbook of batteries”, 2010

10 R.R. Tillaxodjayev., A.Z. Juraboev. Analysis of batteries for electric vehicles and their calculations. “Technical scientific and innovation”, 2021

11 J.R. English. “Optimization of batteries for plug-in hybrid electric vehicles”, 2013. 3

12 M.H. Shushnar. A battery electric aircraft feasibility investigation including a battery-inwing conceptual design. “Thesis presented to the faculty of California polytechnic state university”, 2014. 25

13 P. Asef., M. Milan., A. Lapthorn., S. Padmanaban. “Future trends and aging analysis of battery energy storage systems for electric vehicles. Sustainability”, 2021. 13

14 Y. Zhang, S. Lyden, B.A. León de la Barra, M. E. Haque. Optimization of Tremblay's battery model parameters for plug-in hybrid electric vehicle applications. “University power engineering conference (AUPEC)”, 2017. 1

15 M. Redelbach, E.D. Özdemir, E.F. Horst. “Optimizing battery sizes of plug-in hybrid and extended range electric vehicles for different user types”, 2014. 158

16 V.V. Filatov., A.V. Klimov., I.V. Ukhov., A.V. Podgornyy. Simulation of the heat current limitation algorithm for the traction battery management system. “Systems of signals generating and processing in the field of on board communications, conference proceedings”, 2021

17 G. Pistoia., B. Liaw. Behaviour of lithium-ion batteries in electric vehicles. “Green energy and technology. 2018

Kutilmoqda

№	Muallifning F.I.Sh.	Lavozimi	Tashkilot nomi
1	Daminov O.O.	teacher	TSTU
2	Juraboev A.Z.	teacher	TSTU
3	Kersten S..	teacher	Technische Universitat Dresden

№	Havola nomi
1	K. Mallon., F.A. Assadian. Study of control methodologies for the trade-off between battery aging and energy consumption on electric vehicles with hybrid energy storage systems. “Energies”, 2022. 15
2	L. Plett. Battery management systems volume i battery modeling. “Artech house”, 2015
3	A.Z. Zhuraboyev., O.O. Daminov. Battery analysis for electric vehicles. collection of reports of the republican scientific and practical conference. “The role of intellectual youth in the development of science and technology”, 2021. 262
4	F.Sh. Umerov., J.B. Mirzaabdullaev., A.I. Yangibaev. Mechatronic liability systems car control. International scientific and technical journal. “Innovation technical and technology”, 2021.88
5	A. Kachhwaha., G.I. Rashed., A.R. Garg., O.P. Mahela., B. Khan., M.B. Shafik., M.G. Hussien. Design and performance analysis of hybrid battery and ultra-capacitor energy. “Storage system for electrical vehicle active power management. sustainability”, 2022
6	G. Pistoia. “Electric and hybrid vehicles. elsevier science”, 2021
7	F.Sh. Umerov. Peculiarities of self-diagnostics of mechatronic systems of engines and transmissions of cars. Proceedings of international scientific and technical conference on “problems and prospects of innovative technique and technology in agri-food chain. “International journal of innovations in engineering research and technology (ijiert)”, 2020. 58
8	N.R. Yuldashova., O.O. Daminov Comparative analysis of electric vehicles with internal combustion engines a collection of reports of the Republican scientific and scientificpractical conference. “Current problems of ensuring the continuity of maintenance of modern cars in our country and their effective solutions”, 2021. 129
9	D. Linden., T. Reddy. “Linden's handbook of batteries”, 2010
10	R.R. Tillaxodjayev., A.Z. Juraboev. Analysis of batteries for electric vehicles and their calculations. “Technical scientific and innovation”, 2021
11	J.R. English. “Optimization of batteries for plug-in hybrid electric vehicles”, 2013. 3
12	M.H. Shushnar. A battery electric aircraft feasibility investigation including a battery-inwing conceptual design. “Thesis presented to the faculty of California polytechnic state university”, 2014. 25
13	P. Asef., M. Milan., A. Lapthorn., S. Padmanaban. “Future trends and aging analysis of battery energy storage systems for electric vehicles. Sustainability”, 2021. 13
14	Y. Zhang, S. Lyden, B.A. León de la Barra, M. E. Haque. Optimization of Tremblay's battery model parameters for plug-in hybrid electric vehicle applications. “University power engineering conference (AUPEC)”, 2017. 1
15	M. Redelbach, E.D. Özdemir, E.F. Horst. “Optimizing battery sizes of plug-in hybrid and extended range electric vehicles for different user types”, 2014. 158
16	V.V. Filatov., A.V. Klimov., I.V. Ukhov., A.V. Podgornyy. Simulation of the heat current limitation algorithm for the traction battery management system. “Systems of signals generating and processing in the field of on board communications, conference proceedings”, 2021
17	G. Pistoia., B. Liaw. Behaviour of lithium-ion batteries in electric vehicles. “Green energy and technology. 2018