Materials Today: Proceedings 38:2700–2705 Yadav SK, Pandey KM, Kumar V, Gupta R (2021) Computational analysis of a supersonic two-stage ejector. In: Proceedings of the Institution of Mechanical Engineers, Part E: Journal of Process Mechanical Engineering, 09544089211033129 Kumar A, Kumar V, Subbarao PMV, Yadav SK, Singhal G (2021) Numerical assessment on the performance of variable area single-and two-stage ejectors: A comparative study. Narabayashi T, Yamazaki Y, Kobayashi H, Shakouchi T (2006) Flow analysis for single and multi-nozzle jet pump. Rev Sci Instrum 70(12):4727–4729Ĭhang YJ, Chen YM (2000) Enhancement of a steam-jet refrigerator using a novel application of the petal nozzle. Guillaume DW, Judge TA (1999) Improving the efficiency of a jet pump using an elliptical nozzle. Ringstad KE, Allouche Y, Gullo P, Ervik Å, Banasiak K, Hafner A (2020) A detailed review on CO2 two-phase ejector flow modelling. Int J Refrig 40:338–346īesagni G, Mereu R, Inzoli F (2016) Ejector refrigeration: a comprehensive review. Hu J, Shi J, Liang Y, Yang Z, Chen J (2014) Numerical and experimental investigation on nozzle parameters for R410A ejector air conditioning system. Wang L, Yan J, Wang C, Li X (2017) Numerical study on optimization of ejector primary nozzle geometries. Olaru I (2020) A fluid flow analysis of a jet ejector system used in industrial applications. Doctoral dissertation, Department of mechanical engineering, Pondicherry engineering college Gurulingam S (2014) Investigations on enhancement of entrainment ratio in jet ejector using forced draught. Doctoral dissertation, University of Sheffield Hart JH (2002) Supersonic ejector simulation and optimisation. Su L (2015) CFD simulation and shape optimization of supersonic ejectors for refrigeration and desalination applications Furthermore, it is observed that there is a special need to investigate various aspects of the ejector. This review paper examines the construction and working, applications, and new advances related to the ejectors. Ejectors have many applications, where heat transfer takes place at a higher rate and helps create the vacuum. The mathematical models for the flow of the fluids inside the ejector are least observed since it is difficult to investigate a fast-moving stream of the fluids inside the ejector. They can be understood using some computational techniques and tests. It is difficult to understand the flow characteristics of the fluids and the thermodynamic properties of the streams. They are used in the refrigeration cycle and the rocket engines as well. An ejector is a device used to increase the delivery rate of a fluid. The review aims to give a writing overview of the examination endeavors achieved in the case of an ejector geometry framework.
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