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DOI: Improving The Economic And Environmental Performance Of Engines Through The Use Of Alternative Fuels
Ismatov J.F. , Associate Professor, Tashkent State Technical University, Uzbekistan Jalilov J.Kh. , Senior Teacher, Tashkent State Technical University, Uzbekistan Bekmurodov S.G. , Master’s Student, Tashkent State Technical University, Uzbekistan Khujamov A. , Master’s Student, Tashkent State Technical University, Uzbekistan Fayzullaev A.J. , Manager Of “Inoyat Fayz”, UzbekistanAbstract
The rapid depletion of fossil fuels and the steady increase in human energy consumption, leading to environmental pollution, are creating a situation characterized as an energy-environmental degradation. For this reason, extensive research is being conducted to address the problem of reducing the consumption of non-renewable energy sources and pollution of the environment with toxic waste. In such cases, the concept of hydrogen energy, ie the use of hydrogen as a source of energy on a large industrial scale and in road transport, is important. The prospects for the use of hydrogen for automobile engines can be summarized as follows. First of all, environmental friendliness, renewability and unrestricted raw material reserves, as well as unique engine performance; these allow hydrogen to be used without drastic changes to modern engine designs.
Keywords
Hydrogen, ecology, automobile
References
Decree of the President of the Republic of Uzbekistan dated February 7, 2017 No PD-4947 “On the strategy of further development of the Republic of Uzbekistan”. (Прездентимиз томонидан 2017 йил 7-февралдаги ПФ-4947-сонли “Ўзбекистон Республикасини янада ривожлантириш бўйича ҳаракатлар стратегияси тўғрисида”ги фармони.)
Decree of the President of the Republic of Uzbekistan dated February 14, 2017 No PD 4954 “On measures to further improve the management system of road facilities”. (Ўзбекистон Республикаси Президентининг 2017 йил 14-февралдаги ПФ 4954 сонли “Йўл хўжалигини бошқариш тизимини янада такомиллаштириш чора тадбирлари тўғрисида”ги фармони.)
Automotive engines. M.G. Shatrov. (2003). Moscow. Academy. 2010 Lukanin V.N., Trofimenko Yu.V. “Industrial and transport ecology”. – Moscow. Higher school. – p. 273. (Автомобильные двигатели. М.Г. Шатров. Москва. Академия. 2010г. Луканин В.Н., Трофименко Ю.В. «Промышленно-транспортная экология»,М.,Высш.школа, 2003,273 с.)
Kutenev V.F., Kisulenko B.V., Shute Yu.V. (2009). “Environmental safety of vehicles with internal combustion engines”. – Moscow. Ecology, Mechanical Engineering. – p. 253. (Кутенев В.Ф., Кисуленко Б.В., Шюте Ю.В. «Экологическая безопасность автомобилей с двигателями внутреннего сгорания». М. Экология, Машиностроение,2009 г.,253 с.)
Features of ICE operation when using hydrogen. J.F. Ismatov, S.M. Kodirov. BULLETIN Tashkent Automotive-Road Institute. No. 1, 2017 (Особенности работы ДВС при использовании водорода. Ж.Ф. Исматов, С.М. Кодиров. ТАЙИ хабарномаси. №1, 2017й.)
Using hydrogen as a fuel for internal combustion engines. J.F. Ismatov, S.M. Kodirov. Bulletin Tashkent Automotive-Road Institute. No. 1, 2017 No. 2, 2017. – pp. 12-18. (Использование водорода в качестве топлива для двигателей внутреннего сгорания. Ж.Ф. Исматов, С.М. Кодиров. ТАЙИ хабарномаси. №2, 2017й. 12-18 бетлар.)
Ismatov J.F. Kadyrov S.M. (2017). Features of the operation of internal combustion engines using hydrogen. Journal of the Tashkent Institute of Design, Construction and Operation of Highways. №1. (Исматов Ж.Ф. Кадыров С.М. Особенности работы двигателей внутреннего сгорания при использовании водорода. Тошкент автомобил йўлларини лойиҳалаш,қуриш ва эксплуатацияси институти журнали. №1, 2017 йил.)
Ismatov J.F., Ashurov V.R. Installation of a hydrogen generator (electrolyzer) for receiving hydrogen. “Innovative ideas and cost-effective technologies - the backbone of the agricultural sector”. – Tashkent. Tashkent State Agrarian University, 2018. Dec. 6-7, pp. 729-731. (Исматов Ж.Ф., Ашуров В.Р. Установка генератор водорода (электролезера) для получения водорода. “Инновацион ғоя ва тежамкор технонлогиялар-аграр соҳанинг таянчи”- Тошкент, ТошДАУ, 2018 й. 6-7 декабр, 729-731 бетлар.)
Ismatov J.F., Ashurov V.R. Analysis of the power supply system for engines operating on hydrogen. Termez branch of Tashkent State Agrarian University. Scientific-practical conference. 18-19 May 2018. – pp. 65-66. (Исматов Ж.Ф., Ашуров В.Р. Анализ системы питания двигателей работающих водороде. ТашДАУ Термиз филиали. Илмий-амалий анжумани. 18-19 май 2018й. 65-66 бетлар.)
Ismatov J.F. and others. Ways to create composite mixed fuels for internal combustion engines. Composite materials. Scientific-technical and practical journal. – Tashkent. 2019. №2. ISSN: 2091-5527. (Исматов Ж.Ф. ва бошқалар. Ички ёнув двигателлари учун композицион аралашмали ёнилғиларни яратиш йўллари. Kompozitsion materiallar. Ilmiy-texnikaviy va amaliy jurnali. Тошкент. 2019y. №2. ISSN : 2091-5527.)
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