The rapid depletion of fossil fuels and the ever-increasing demand for human
energy, which results in environmental pollution, are creating a situation characterized by
energy-ecological degradation. For this reason, large-scale research is being carried out to
address the problem of reducing the use of non-renewable energy sources and the pollution of
the environment by toxic waste. Under these circumstances, the use of hydrogen as a source of
energy in a wide range of industrial and automotive sectors is of great importance. The prospects
for hydrogen use for automotive engines can be summarized, first of all, for environmental
cleanliness, renewable and unrestricted raw materials, and unique engine performance, which
allows hydrogen to be used without making drastic changes to modern engines.
The rapid depletion of fossil fuels and the ever-increasing demand for human
energy, which results in environmental pollution, are creating a situation characterized by
energy-ecological degradation. For this reason, large-scale research is being carried out to
address the problem of reducing the use of non-renewable energy sources and the pollution of
the environment by toxic waste. Under these circumstances, the use of hydrogen as a source of
energy in a wide range of industrial and automotive sectors is of great importance. The prospects
for hydrogen use for automotive engines can be summarized, first of all, for environmental
cleanliness, renewable and unrestricted raw materials, and unique engine performance, which
allows hydrogen to be used without making drastic changes to modern engines.
№ | Имя автора | Должность | Наименование организации |
---|---|---|---|
1 | Qurbanov A.N. | teacher | TSTU |
№ | Название ссылки |
---|---|
1 | Resolution of the President of the Republic of Uzbekistan dated July 10, 2020 No. Q-4779 “Increasing the energy efficiency of the economy and reducing the dependence of economic sectors in fuel and energy products”, 2020. |
2 | Resolution of the President of the Republic of Uzbekistan dated August 22, 2019. “On accelerated measures to improve the energy efficiency of economic and social sectors, the introduction of energy-saving technologies and the development of renewable energy sources”, 2019. 2244 |
3 | O.O. Daminov., A.Z. Juraboev., L.O. Daminov., A.M. Kurbanov. Analysis of energy sources for electric vehicles. International Conference on Electrical Facilities and informational technologies 2022 (ICEF 2022). New Intelligence Technology: Past, Present and Future. “Turin polytechnic university in Tashkent”, 2022. 37. |
4 | A.A. Mirzayev., A.M. Qurbanov., S.X. Ortiqboyev. Requirements for an electric vehicle. IIInternational scientific and practical conference. “Problems and prospects of innovative machinery and technologies in the agri-food chain”, 2022. 278. |
5 | A.M. Qurbanov., S.X. Ortiqboyev. Application of innovative composite materials in modern engines. Materials science, innovative technologies for obtaining materials and actual problems of welding production. “Republican scientific and technical conference”, 2022. 38. |
6 | B.R. Tulaev., J.O. Khakimov., A.M. Kurbanov. Mathematical modeling oscillations of the diesel turbocharger shaft. 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”, 2020. 171. |
7 | R.R. Tillahodjaev., J.P. Turdiev., A.M. Kurbanov. Alternative fuels and environmental efficiency. International scientific and technical journal. “Innovation technical and technology”, 2021. |
8 | V. V. Zharkov. On the issue of the use of hydrogen on internal combustion engines. “Young scientist”, 2012. 47. |
9 | A.F. Aksenov. Friction and wear of metals in hydrocarbon liquids. “Mechanical Engineering”, 2007. |
10 | V.N. Afroshmova., M.A. Polyatsky. “Experimental study of the gorenje efficiency of gas fuel”, 1997. 25. |
11 | I.L. Varshavsky Low-toxic car: Reducing the toxicity of engine exhaust gases by using hydrogen additives. – In the collection: Protection of the air basin from pollution by toxic emissions of vehicles. “ANUSS. IP Mash Academy of Sciences”, 1997. |
12 | A.S. Isserlin., M.I. Pevsner., E.I. Yezhova. “Burner devices for gas combustion in metallurgy of heavy non-ferrous metals”, 2002. 75 |
13 | A.S. Isserlin. Fundamentals of gas fuel combustion. “Nedra Leningrad branch”, 2007. 336. |
14 | A.M. Obelnitsky. Calculation of thermochemical properties of two-component fuels for reciprocating internal combustion engines. “Interuniversity collection of scientific papers. The car and the environment”, 2006. |
15 | A.M. Obelnitsky. Fuel and lubricants. "Higher School", 2002. |
16 | M.S. Assad. “Alternative motor fuels: development trends, phenomenological aspects of development”, 2008. 328. |
17 | V.F. Kamenev., V.M. Fomin., N.A. Khripach. Theoretical and experimental studies of engine operation on diesel-hydrogen fuel compositions. “International scientific journal alternative energy and ecology”, 2005. 27. |