Experimental investigations on mixing characteristics in the critical regime of a low-area ratio supersonic ejector

A technique based on a one-dimensional constant area flow model has been developed for solving a large class of supersonic ejector optimization problems. In particular, the method determines the primary nozzle Mach number and ejector area ratio which optimizes either the entrainment ratio, compression ratio, or stagnation pressure ratio given values for the other two variables and the primary and secondary gas properties and stagnation temperatures. Design curves for the common case of diatomic primary and secondary gases of equal molecular weight and stagnation temperature are also presented and discussed.

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Low area ratio thrust augmenting ejectors

10.2514/6.1971-576 ◽

1971 ◽

Cited By ~ 2

Author(s):

R. FANCHER

Keyword(s):

Area Ratio ◽

Low Area

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Discussion: “An Experimental Investigation of Several Low-Area-Ratio Water Jet Pumps” (Sanger, N. L., 1970, ASME J. Basic Eng., 92, pp. 11–19)

Journal of Basic Engineering ◽

10.1115/1.3424936 ◽

1970 ◽

Vol 92 (1) ◽

pp. 20-20

Author(s):

R. G. Cunningham

Keyword(s):

Experimental Investigation ◽

Area Ratio ◽

Water Jet ◽

Low Area ◽

Jet Pumps

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Experimental Determination of Geometric Parameters for an Annular Injection Type Supersonic Ejector

Journal of Fluids Engineering ◽

10.1115/1.2353264 ◽

2006 ◽

Vol 128 (6) ◽

pp. 1164-1171 ◽

Cited By ~ 16

Author(s):

Sehoon Kim ◽

Sejin Kwon

Keyword(s):

Secondary Flow ◽

Static Pressure ◽

Area Ratio ◽

Geometric Parameters ◽

Cross Sectional ◽

Chamber Length ◽

Supersonic Ejector ◽

Mixing Chamber ◽

Flow Pressure ◽

Contraction Angle

The effects of four geometric parameters of an annular injection supersonic ejector, namely, the primary nozzle exit-to-throat area ratio, the contraction angle of the mixing chamber, the cross-sectional area and L/D ratio of the second-throat on the performance parameters including the secondary flow pressure, the starting pressure and unstarting pressure were investigated experimentally. The starting pressure exhibits linearly proportional dependence on the throat area ratio when the mixing chamber length is less than a certain critical value. For a longer mixing chamber, the starting pressure is proportional to the mixing chamber length while the unstarting pressure depends on the throat area ratio only. The geometric parameters of the second-throat do not affect the static pressure of the secondary flow. This implies that the secondary flow is aerodynamically choked in the mixing chamber and the static pressure of the secondary flow is determined by the choking condition since the mixing chamber of the annular injection ejector is relatively long. Based on the findings by the experiment, a simplified analytical model was proposed to predict the secondary flow pressure. The predicted secondary flow pressure agrees reasonably well with the measurement for a small contraction angle of the mixing chamber.

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Experimental investigations of flow through wide angle conical diffusers with uniform flow and swirl type velocity distortions at inlet

Thermal Science ◽

10.2298/tsci170817223h ◽

2018 ◽

Vol 22 (6 Part A) ◽

pp. 2571-2581

Author(s):

Arumugam Hemalatha ◽

Nainarkuppam Mahalakshmi

Keyword(s):

Cone Angle ◽

Tangential Velocity ◽

Boundary Layer Separation ◽

Open Circuit ◽

Area Ratio ◽

Experimental Investigations ◽

Wide Angle ◽

Flow Parameters ◽

Conical Diffuser ◽

Flow Through

Swirl is a tangential velocity component of the fluid flow and is often present in the conical diffuser as a result of rotating machinery in the upstream section. The present experimental work is dedicated to study the effect of moderate swirl on wide angle conical diffuser performance and flow development. The experiments were performed in a low-speed open circuit wind tunnel. There are two different diffusers having a cone angle of 14? (with an area ratio 3.0) and 20? (with an area ratio 4.2) were selected for this investigation. The flow parameters have been measured using DANTEC DYNAMICS make constant temperature hot-wire anemometer (CTA). The results showed that the moderate swirl can significantly improve the stalled diffuser (20? cone angle) performance; however, it has a little effect on the diffuser (14? cone angle) having incipient turbulent boundary layer separation. It was confirmed that the introduction of moderate swirl reduces the chances of flow separation in wide angle conical diffusers.

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