International Journal of Electrical Machines & Drives

Although there are numerous different kinds of nozzles, convergent as well as divergent nozzles are among the most often employed nozzles. The paper discussed diverse fluids moving at various speeds and convergent and divergent nozzle diameters. Chemical and thermal energy are transformed into kinetic energies using the nozzle. The combustion appropriations committee low acceleration, high intensity, and high temperature airflow is transformed into higher speed, pressure difference, and lower thermal gas by the nozzle. Nozzles regulate the streams that exeunt through them in terms of its mass, intensity, orientation, and speed of flow. By using the directional mass flows rates, the computational fluid dynamics (CFD) methodology may be used to calculate the pressure losses, temperature coefficient, velocity, and rate of heat transfer for such a stream.

Taylor CF. The Internal combustion Engine in Theory and Practice: combustion, fuels, materials, design. MIT Press; 1985.

Mm, N. 2008. CFD simulation and validation of the in-cylinder within A motored two stroke SI engine. 2nd International Conference on Science and Technology, Applications in Industry and Education, ICSTIE. 12-13 December 2008; Penang, MalaysiaUnited Kingdom

Stone R 1999. Introduction to internal combustion engines. Second Edillon. MACMILLAN Press.

Harrington DL, Bolt JA. Analysis and digital simulation of carburetor metering [SAE technical paper]; 1970.

White C, Steeper R, Lutz A. The hydrogen-fueled internal combustion engine: a technical review. Int J Hydr Energy. 2006;31(10):1292–305. doi: 10.1016/j.ijhydene.2005.12.001.

Google.com. (2003). JP2005054615A - Fuel supply system and fuel supply method of cylinder injection engine - Google Patents. [online] Available at: https://patents.google.com/patent/JP2005054615A/en [Accessed 16 Sep. 2022].

Google.com. (2004). US7191762B2 - Fuel injection system - Google Patents. [online] Available at: https://patents.google.com/patent/US7191762B2/en [Accessed 16 Sep. 2022].

Zhao F-Q, et al. A review of mixture preparation and combustion control strategies for spark-ignited direct-injection gasoline engines. SAE Technical Paper.; 1997. https://doi.org/10.4271/970627.

Dempsey, A. B., Walker, N. R., Gingrich, E., & Reitz, R. D. (2014). Comparison of low temperature combustion strategies for advanced compression ignition engines with a focus on controllability. Combustion Science and Technology, 186(2), 210-241.

Iwamoto Y, et al. Development of gasoline direct injection engine [SAE technical paper]; 1997.

Bakar RA, Ismail S, Ismail AR. Fuel injection pressure effect on performance of direct injection diesel engines based on experiment. Am J Appl Sci. 2008;5(3):197–202. doi: 10.3844/ajassp.2008.197.202.

Çelıkten İ. An experimental investigation of the effect of the injection pressure on engine performance and exhaust emission in indirect injection diesel engines. Appl Therm Eng. 2003;23(16):2051–60. doi: 10.1016/S1359–4311(03)00171–6.