Specifically, greenhouse gases (CH4, N2O, CO2, CO, SO2), are strong climate forcers, and articulate pollution all have detrimental health effects. Vehicle on-road traffic is a major contributor to air pollutants in urban areas that affect human population health, the environment at local and regional scales, and the global climate.[1] This study forces a numerical study of engine oil by engine conditions by using different type of fuels. Engine oil main parameters and internal combustion engines were investigated under real-world conditions for driving cycles typical for Tashkent urban environments. Three kinds of laboratory equipment and ISO standards were utilized. Our study shows that by using different types of fuel, the life cycle point of motor oil varies. Total base number (TBN), Total acid number (TAN), viscosity and flash points were taken as basic parameters of engine oil. The viscosity value of oil dominated the other characteristics. In general, in our study to improve engine performance, we must consider engine oil, which is one of the key parameters.

Viscosity, Flash point, Greenhouse gases

T.Rönkkö, L.Pirjola, P.Karjalainen, P.Simonen, K.Teinilä, M.Bloss, L. Salo, Arindam Datta, B.Lal, R.K.Hooda, S.Saarikoski, H.Timonen, “Exhaust particle number and composition for diesel and gasoline passenger cars under transient driving conditions: Real-world emissions down to 1.5 nm” Environmental Pollution,Volume 338, 2023, 122645, ISSN 0269-7491.

Luigi De Simio, Sabato Iannaccone, Chiara Guido, Pierpaolo Napolitano, Armando Maiello, Natural Gas/Hydrogen blends for heavy-duty spark ignition engines: Performance and emissions analysis, International Journal of Hydrogen Energy, Volume 50, Part B, 2024, Pages 743-757, ISSN 0360-3199.

Balaji Ramachandran, Ravikumar Solomon, Pardeep Sangwan, C. Edwin Samuel, Unai Fernandez-Gamiz, Shyam Sundar Santra, Mohamed Altanji, Vediyappan Govindan, An experimental analysis on performance of tobacco seed oil as an alternative fuel for diesel engine, Alexandria Engineering Journal, Volume 80, 2023, Pages 408-416, ISSN 1110-0168.

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