ANALYSIS OF MECHATRONICALLY CONTROLLED TURBINES AND THEIR LAYOUT SCHEMES USED IN MIDDLE-CLASS INTERNAL COMBUSTION ENGINES

Umerov F; Yangibaev A

122

This article will talk about the prospects for the possible use of gas-cylinder equipment on turbine internal combustion engines with a direct power supply system, consider the main possible methods of using such equipment and their results, identifying the best among them, taking such well-known car models as Chevrolet Tracker and Chevrolet Onyx as an example. Today there is an increase in the trend of transferring the car to two fuel supply. Installing gas-cylinder equipment on a turbo has also become quite popular. It is not difficult to make such a translation. It is only important to do this in compliance with all technical requirements. Installation of LPG equipment on a turbo allows the driver to reduce financial costs, increase the life of the motor, reduce wear of engine parts

Название журналаTechnical science and innovation
Номер выпуска2022, №3(13)
Количество просмотров 122

Ссылка в интернете

DOI

Дата создание в систему UzSCI 07-11-2022

Количество прочтений 122

Дата публикации 30-09-2022

Язык статьиIngliz

Страницы180-187

Ключевые слова

gas-cylinder equipment

turbocharged engine

turbocharged cars

mounting

turbine

English

This article will talk about the prospects for the possible use of gas-cylinder equipment on turbine internal combustion engines with a direct power supply system, consider the main possible methods of using such equipment and their results, identifying the best among them, taking such well-known car models as Chevrolet Tracker and Chevrolet Onyx as an example. Today there is an increase in the trend of transferring the car to two fuel supply. Installing gas-cylinder equipment on a turbo has also become quite popular. It is not difficult to make such a translation. It is only important to do this in compliance with all technical requirements. Installation of LPG equipment on a turbo allows the driver to reduce financial costs, increase the life of the motor, reduce wear of engine parts

Ключевые слова

gas-cylinder equipment

turbocharged engine

turbocharged cars

mounting

turbine

№ Имя автора Должность Наименование организации

1 Umerov F.. teacher TURIN POLYTECHNIC UNIVERSITY

2 Yangibaev A.. teacher TSTU

№ Название ссылки

1 O.O. Daminov., A.Z. Juraboev., S. Kersten. Working process of cells and batteries. “Technical science and innovation”, 2022. 134.

2 S.M. Kadyrov., Z.E. Musabekov., A.M. Khakimov. Crankshafts of engines of 'Tico' and Nexia' types, their operational defects (Article). “Automotive industry”, 2005. 30.

3 B.R. Tulaev., O.O. Daminov. Analytical study of stresses and vibrations on the rotor of the ICE turbo compressor. The third scientific-practical conference of talented students on the topic. The role of young people in the development of science and technology. “Collection of theses”, 2003. 227.

4 A.E. Simson. Gas turbine pressurization of diesel engines. “Mechanical engineering”, 2004. 248

5 A.Y. Simson. Turbocharging of high-speed diesel engines. “Mechanical engineering”, 2016. 288.

6 F.M. Matmurodov., B.A. Yunusov., J.O. Khakimov., O.O. Daminov. “Mathematical modeling and numerical determination of kinetic and power parameters of loaded power mechanisms of a combined machine”. “1st International Conference on Problems and Perspectives of Modern Science (ICPPMS)”, 2021

7 O.O. Daminov., O.A. Khushnaev., J.P. Turdiev. Investigation of the kinematics of the crank mechanism using automated calculation. “International Journal of Innovations in Engineering Research and Technology [IJIERT]”, 2020. 138.

8 O.O. Daminov. O.A. Khushnaev. A.I. Yangibaev. G.M. Kucharenok. "Improving the performance indicators of diesel engines by enhancing the cooling system, “Technical science and innovation”, 2020

9 V.N. Lukanin., K.A. Morozov., A.S. Khachiyan. Internal combustion engines. In 3 books. Book. 1. Theory of work processes. “Textbook”, 2005. 368

10 S.M. Kadyrov., Z.E. Musabekov. Arc deposition: Restoration of crankshaft of the diesel D144 (Article). “Automotive industry”, 2001. 25

11 F.Sh. Umerov., J.B. Mirzaabdullaev., A.I. Yangibaev. Mechatronic liability systems car control. “Innovation technical and technology”, 2021. 88.

12 J. Ismatov., F. Matmurodov., A. Kholikov., A. Abdullaev., J. Djalilov., U. Muhammadiyev. Description by the method of combustion mass transfer of a gasoline-hydrogen-air mixture and reduction of harm to the environment. Intelligent Information Technology and Mathematical Modeling 2021 (IITMM 2021). “Journal of physics: conference series”, 2021

13 Z.E. Musabekov., J.O. Khakimov., B. Ergashev. Differential equations for calculating gas exchange in an internal combustion engine. E3S Web of Conferences 264, 01003 (2021). The International Scientific Conference. Construction Mechanics, Hydraulics and Water Resources Engineering (CONMECHYDRO 2021). “Published online”, 2021.

14 G.M. Kukharenok., A.N. Petruchenko., V.I. Berezun. Reduced emissions of harmful substances from diesel engines. “New knowledge”, 2014

15 A.S. Orlina., M.G. Kruglova. Engines of the internal structure. “Mechanical engineering”, 1981.

16 J.F. Ismatov., A.I. Yangibaev., A.A. Jalilov., N.V. Vadulina. Main factors that influence the thermal stress state of piston engine parts. “Technical science and innovation”, 2021. 273

17 J. Ismatov., O. Ergashev. Processes of mixture formation, ignition and combustion of a diesel engine. „E3S Web of Conferences“, 2021.

18 Z. Musabekov., F. Turayev., A. Yangiboyev., N. Ravshanov. Determination of the factors that drive operating conditions and reflect certain properties of the internal combustion engine. “Technical science and innovation”, 2021. 230

19 B. Tulayev., O.O. Daminov., J.O. Khakimov. Mathematical model of a LPG vehicle with a bio-fuel power supply system. “Technical science and innovation”, 2019. 44.

В ожидании

№	Имя автора	Должность	Наименование организации
1	Umerov F..	teacher	TURIN POLYTECHNIC UNIVERSITY
2	Yangibaev A..	teacher	TSTU

№	Название ссылки
1	O.O. Daminov., A.Z. Juraboev., S. Kersten. Working process of cells and batteries. “Technical science and innovation”, 2022. 134.
2	S.M. Kadyrov., Z.E. Musabekov., A.M. Khakimov. Crankshafts of engines of 'Tico' and Nexia' types, their operational defects (Article). “Automotive industry”, 2005. 30.
3	B.R. Tulaev., O.O. Daminov. Analytical study of stresses and vibrations on the rotor of the ICE turbo compressor. The third scientific-practical conference of talented students on the topic. The role of young people in the development of science and technology. “Collection of theses”, 2003. 227.
4	A.E. Simson. Gas turbine pressurization of diesel engines. “Mechanical engineering”, 2004. 248
5	A.Y. Simson. Turbocharging of high-speed diesel engines. “Mechanical engineering”, 2016. 288.
6	F.M. Matmurodov., B.A. Yunusov., J.O. Khakimov., O.O. Daminov. “Mathematical modeling and numerical determination of kinetic and power parameters of loaded power mechanisms of a combined machine”. “1st International Conference on Problems and Perspectives of Modern Science (ICPPMS)”, 2021
7	O.O. Daminov., O.A. Khushnaev., J.P. Turdiev. Investigation of the kinematics of the crank mechanism using automated calculation. “International Journal of Innovations in Engineering Research and Technology [IJIERT]”, 2020. 138.
8	O.O. Daminov. O.A. Khushnaev. A.I. Yangibaev. G.M. Kucharenok. "Improving the performance indicators of diesel engines by enhancing the cooling system, “Technical science and innovation”, 2020
9	V.N. Lukanin., K.A. Morozov., A.S. Khachiyan. Internal combustion engines. In 3 books. Book. 1. Theory of work processes. “Textbook”, 2005. 368
10	S.M. Kadyrov., Z.E. Musabekov. Arc deposition: Restoration of crankshaft of the diesel D144 (Article). “Automotive industry”, 2001. 25
11	F.Sh. Umerov., J.B. Mirzaabdullaev., A.I. Yangibaev. Mechatronic liability systems car control. “Innovation technical and technology”, 2021. 88.
12	J. Ismatov., F. Matmurodov., A. Kholikov., A. Abdullaev., J. Djalilov., U. Muhammadiyev. Description by the method of combustion mass transfer of a gasoline-hydrogen-air mixture and reduction of harm to the environment. Intelligent Information Technology and Mathematical Modeling 2021 (IITMM 2021). “Journal of physics: conference series”, 2021
13	Z.E. Musabekov., J.O. Khakimov., B. Ergashev. Differential equations for calculating gas exchange in an internal combustion engine. E3S Web of Conferences 264, 01003 (2021). The International Scientific Conference. Construction Mechanics, Hydraulics and Water Resources Engineering (CONMECHYDRO 2021). “Published online”, 2021.
14	G.M. Kukharenok., A.N. Petruchenko., V.I. Berezun. Reduced emissions of harmful substances from diesel engines. “New knowledge”, 2014
15	A.S. Orlina., M.G. Kruglova. Engines of the internal structure. “Mechanical engineering”, 1981.
16	J.F. Ismatov., A.I. Yangibaev., A.A. Jalilov., N.V. Vadulina. Main factors that influence the thermal stress state of piston engine parts. “Technical science and innovation”, 2021. 273
17	J. Ismatov., O. Ergashev. Processes of mixture formation, ignition and combustion of a diesel engine. „E3S Web of Conferences“, 2021.
18	Z. Musabekov., F. Turayev., A. Yangiboyev., N. Ravshanov. Determination of the factors that drive operating conditions and reflect certain properties of the internal combustion engine. “Technical science and innovation”, 2021. 230
19	B. Tulayev., O.O. Daminov., J.O. Khakimov. Mathematical model of a LPG vehicle with a bio-fuel power supply system. “Technical science and innovation”, 2019. 44.