Add to ORKGA procedure, based on a simplified Quasi 3-D flow analysis, is proposed to predict the cavitation inception on centrifugal pump impellers. The effects due to the impeller geometry and the incidence angle are described and discussed. The merits of the present formulation are demonstrated by comparison with measured values as well as with other published relations. Design and off-design NPSH values predicted with the procedure here proposed appears to be in close agreement with experimental observations
We developed a numerical method of estimating not only cavitation erosion area but also cavitation i...
Considering the compressibility of the cavity in the cavitating flow, this paper presents a modified...
AbstractConsidering the compressibility of the cavity in the cavitating flow, this paper presents a ...
Cavitation is a fundamental issue in pump design since it yields significant decrease of performance...
Cavitation is a fundamental issue in pump design. This topic is usually approached through costly ex...
New computational methods are continuously developed in order to solve problems in different enginee...
This paper aims at numerically predicting the flow behavior of the pump. Further validation of the a...
This paper aims at numerically predicting the flow behavior of the pump. Further validation of the a...
In this study, to accurately predict cavitation of a centrifugal pump, numerical analysis was compar...
The occurrence of cavitation is one of the main limiting factors in the operation and design of cent...
In the presented study a special test pump with two-dimensional curvature blade geometry was investi...
Centrifugal pumps are considered as machines of high importance in a wide range of industries, hence...
The aim of this paper is to present the results obtained with a 3-D numerical method allowing the pr...
In the presented study a special test pump with two-dimensional curvature blade geometry was investi...
ABSTRACTThe phenomenon of cavitation is an unsteady flow, which is nearly inevitable in pump. It wou...
We developed a numerical method of estimating not only cavitation erosion area but also cavitation i...
Considering the compressibility of the cavity in the cavitating flow, this paper presents a modified...
AbstractConsidering the compressibility of the cavity in the cavitating flow, this paper presents a ...
Cavitation is a fundamental issue in pump design since it yields significant decrease of performance...
Cavitation is a fundamental issue in pump design. This topic is usually approached through costly ex...
New computational methods are continuously developed in order to solve problems in different enginee...
This paper aims at numerically predicting the flow behavior of the pump. Further validation of the a...
This paper aims at numerically predicting the flow behavior of the pump. Further validation of the a...
In this study, to accurately predict cavitation of a centrifugal pump, numerical analysis was compar...
The occurrence of cavitation is one of the main limiting factors in the operation and design of cent...
In the presented study a special test pump with two-dimensional curvature blade geometry was investi...
Centrifugal pumps are considered as machines of high importance in a wide range of industries, hence...
The aim of this paper is to present the results obtained with a 3-D numerical method allowing the pr...
In the presented study a special test pump with two-dimensional curvature blade geometry was investi...
ABSTRACTThe phenomenon of cavitation is an unsteady flow, which is nearly inevitable in pump. It wou...
We developed a numerical method of estimating not only cavitation erosion area but also cavitation i...
Considering the compressibility of the cavity in the cavitating flow, this paper presents a modified...
AbstractConsidering the compressibility of the cavity in the cavitating flow, this paper presents a ...