Your search keyword '"EJECTORS (Jet propulsion)"' showing total 3 results

1. A study of the supersonic ejector–diffuser system with an inlet orifice

Author

Lijo, Vincent, Kim, Heuy Dong, Matsuo, Shigeru, and Setoguchi, Toshiaki

Subjects

*EJECTORS (Jet propulsion), *DIFFUSERS (Fluid dynamics), *SUPERSONIC planes, *ORIFICE plates (Fluid dynamics), *AEROSPACE engineering, *PROPULSION systems

Abstract

Abstract: Supersonic ejectors are simple mechanical components, which generally perform mixing and recompression of two fluid streams. Ejectors have found many applications in engineering. In aerospace engineering, they are used for high altitude testing (HAT) of a propulsion system by reducing the pressure of a test chamber. It is composed of three major sections: a vacuum test chamber, a propulsive nozzle, and a supersonic exhaust diffuser. This paper aims at the improvement in HAT facility by focusing attention on reducing exhaust back flow into the test chamber, since alteration of the backflow appears as one of the potential means of significantly improving its performance. The simplest backflow-reduction device was an orifice plate at the duct inlet, which would pass the jet and entrained fluid but impede the movement of fluid upstream along the wall. Results clearly showed that the performance of the ejector–diffuser system was improved for a certain range of system pressure ratios, whereas the orifice plate was detrimental to the ejector performance for higher-pressure ratios. It is also found that, there is no change in the performance of diffuser with an orifice at its inlet, with respect to its pressure recovery. Hence, an appropriately sized orifice system should produce considerable improvement in the ejector–diffuser performance in the intended range of pressure ratios. [Copyright &y& Elsevier]

Published

2012

2. Numerical simulation of flow inside an adjustable ejector.

Author

ZHANG Ku, LIU Jia, and SHEN Sheng-qiang

Subjects

COMPUTER simulation, DIFFUSERS (Fluid dynamics), FLUID dynamics, MECHANICAL engineering, EJECTORS (Jet propulsion)

Abstract

A mathematical model of the adjustable ejector was established and the flow of the adjustable ejector was simulated by FLUENT on different spindle positions. The experimental results indicate that the axial pressure of an adjustable ejector increases linearly in the constant area mixing section, sharply in the beginning of diffuser section and then slowly in the other sections of diffuser. The velocity of flow in the mixing section differs significantly at the axis and boundary. The movement of spindle into the nozzle makes the position of shock wave upstream and motive flow rate decreases. [ABSTRACT FROM AUTHOR]

Published

2010

3. Ejector Systems.

Author

Karmanov, E. V., Lebedev, Yu. N., Chekmenev, V. G., and Aleksandrov, I. A.

Subjects

*COMPRESSORS, *DIFFUSERS (Fluid dynamics), *THERMOPHYSICAL properties, *EJECTORS (Jet propulsion), *FLUID dynamics, *TURBOMACHINES

Abstract

Assesses the legitimacy of using methods based on use of nomograms that correlate the ejection factor with the degree of expansion of the ejecting gas and degree of compression of the ejected gas for systems with thermophysical properties different from the vapor-air mixtures for which it is recommended. Simulation of the compression in the converging and diverging diffuser sections by two successive compressors.

Published

2004