Compressible Flow Ejectors: Part I—Development of a Finite-Difference Flow Model

K. R. Hedges; P. G. Hill

Source: Journal of Fluids Engineering:;1974:;volume( 096 ):;issue: 003::page 272

Author:

K. R. Hedges

P. G. Hill

DOI: 10.1115/1.3447151

Publisher: The American Society of Mechanical Engineers (ASME)

Abstract: A general method of calculating two-dimensional (plane and axisymmetric) mixing of a compressible jet in variable-area ducts has been developed. The method incorporates finite-difference approximations to the conservation equations, and is applicable to a wide range of Mach number, mass flow ratio, and initial conditions. The model was based on mixing length approximations deduced from boundary-layer and free-jet mixing for the upstream portion of the flow, and on a new mixing length distribution for the downstream zone which is entirely occupied by shear flow. The method has been tested and found satisfactory with existing data on boundary layer, constant-diameter duct entrance flow, constant-pressure jet mixing, and jet mixing in variable-area ducts. Part II of the paper describes tests of the method with new data from an experimental ejector study.

keyword(s): Flow (Dynamics) , Ejectors , Compressible flow , Ducts , Approximation , Boundary layers , Pressure , Mach number , Shear flow AND Equations ,

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Compressible Flow Ejectors: Part I—Development of a Finite-Difference Flow Model

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contributor author	K. R. Hedges
contributor author	P. G. Hill
date accessioned	2017-05-09T01:38:19Z
date available	2017-05-09T01:38:19Z
date copyright	September, 1974
date issued	1974
identifier issn	0098-2202
identifier other	JFEGA4-26860#272_1.pdf
identifier uri	http://yetl.yabesh.ir/yetl/handle/yetl/164879
description abstract	A general method of calculating two-dimensional (plane and axisymmetric) mixing of a compressible jet in variable-area ducts has been developed. The method incorporates finite-difference approximations to the conservation equations, and is applicable to a wide range of Mach number, mass flow ratio, and initial conditions. The model was based on mixing length approximations deduced from boundary-layer and free-jet mixing for the upstream portion of the flow, and on a new mixing length distribution for the downstream zone which is entirely occupied by shear flow. The method has been tested and found satisfactory with existing data on boundary layer, constant-diameter duct entrance flow, constant-pressure jet mixing, and jet mixing in variable-area ducts. Part II of the paper describes tests of the method with new data from an experimental ejector study.
publisher	The American Society of Mechanical Engineers (ASME)
title	Compressible Flow Ejectors: Part I—Development of a Finite-Difference Flow Model
type	Journal Paper
journal volume	96
journal issue	3
journal title	Journal of Fluids Engineering
identifier doi	10.1115/1.3447151
journal fristpage	272
journal lastpage	281
identifier eissn	1528-901X
keywords	Flow (Dynamics)
keywords	Ejectors
keywords	Compressible flow
keywords	Ducts
keywords	Approximation
keywords	Boundary layers
keywords	Pressure
keywords	Mach number
keywords	Shear flow AND Equations
tree	Journal of Fluids Engineering:;1974:;volume( 096 ):;issue: 003
contenttype	Fulltext

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