Add to ORKGA two-dimensional CFD model for predicting the oscillating flow through a jet pump is developed. Various taper angles are investigated and total minor loss coefficients are derived. A good correspondence is achieved with experimental results from the literature. However, at higher taper angles a dramatic decay in the jet pump pressure drop is observed, which serves as a starting point for the improvement of jet pump design criteria for compact thermoacoustic application
As an, aid to jet pump design and performance analysis, a theoretical investigation on turbulent con...
A jet pump consists mainly of a convergent-divergent Ven-turi shaped duct where a primary stream is ...
The effect of operational and geometrical parameters on the jet pump efficiency were determined expe...
A two-dimensional CFD model for predicting the oscillating flow through a jet pump is developed. Var...
The oscillatory flow through tapered cylindrical tube sections (jet pumps) is characterized by a num...
A two-dimensional computational fluid dynamics model is used to predict the oscillatory flow through...
A computational fluid dynamics model is used to predict the oscillatory flow through tapered cylindr...
This paper describes a numerical simulations of oscillating flow in a constricted duct and compares ...
Thermoacoustic engines are an interesting alternative to conventional heat engines (such as Stirling...
The effect of flow separation and turbulence on the performance of a jet pump in oscillatory flows i...
The design of compact thermoacoustic devices requires compact jet pump geometries, which can be real...
A jet pump is a type of pump that accelerates the flow of a secondary fluid (driven fluid) by introd...
Abstract: The present investigation deals with the application of advanced numerical techniques to t...
One of the main advantages of fluidic oscillators is that they do not have moving parts, which bring...
Abstract Flow and pressure in a short diffuser placed at exit of a plane turbulent jet have been stu...
As an, aid to jet pump design and performance analysis, a theoretical investigation on turbulent con...
A jet pump consists mainly of a convergent-divergent Ven-turi shaped duct where a primary stream is ...
The effect of operational and geometrical parameters on the jet pump efficiency were determined expe...
A two-dimensional CFD model for predicting the oscillating flow through a jet pump is developed. Var...
The oscillatory flow through tapered cylindrical tube sections (jet pumps) is characterized by a num...
A two-dimensional computational fluid dynamics model is used to predict the oscillatory flow through...
A computational fluid dynamics model is used to predict the oscillatory flow through tapered cylindr...
This paper describes a numerical simulations of oscillating flow in a constricted duct and compares ...
Thermoacoustic engines are an interesting alternative to conventional heat engines (such as Stirling...
The effect of flow separation and turbulence on the performance of a jet pump in oscillatory flows i...
The design of compact thermoacoustic devices requires compact jet pump geometries, which can be real...
A jet pump is a type of pump that accelerates the flow of a secondary fluid (driven fluid) by introd...
Abstract: The present investigation deals with the application of advanced numerical techniques to t...
One of the main advantages of fluidic oscillators is that they do not have moving parts, which bring...
Abstract Flow and pressure in a short diffuser placed at exit of a plane turbulent jet have been stu...
As an, aid to jet pump design and performance analysis, a theoretical investigation on turbulent con...
A jet pump consists mainly of a convergent-divergent Ven-turi shaped duct where a primary stream is ...
The effect of operational and geometrical parameters on the jet pump efficiency were determined expe...