Add to ORKGThis paper focuses on the modeling of cavitating flows by means of a barotropic law of state. Within a robust 2D Navier-Stokes, capable to handle the complex aspects of cavitating flows, different cavitation models are implemented. In particular two different classes of barotropic cavitation models have been used: a sinusoidal model and a quasi-homogeneous isenthalpic cavitation model suitably modified to account for thermal effects. The paper deals with the differences between these models and hence with the differences with the resulting flow fields. The analysis has been made for the flow over an ogival headform
The predictive capability of three transport equation-based cavitation models is evaluated for attac...
This paper is concerning with simulations of cavitation flow around the NACA 0015 hydrofoil. The pro...
Downloaded Fshift the cavitation regions. The objective of the present study is to develop a practic...
This paper presents the development of a quasi-homogeneous isenthalpic cavitation flow model, suitab...
This paper presents a numerical study of the flow around a 2D hydrofoil, proposed as a test case for...
Extending Brennen’s original formulation [1], this paper illustrates the development of a modified b...
An homogeneous cavitation flow model capable of accounting for both the effects of thermal cavitatio...
Cavitation is defined as the process of formation and disappearance of a vapor phase in a liquid whe...
The present paper illustrates recent theoretical and numerical activities on cavitating flows carrie...
Asme Paper FEDSM2005-77142 The simulation of cavitating flow is a difficult task, due to the large ...
The focus of research works on cavitation has changed since the 1960s; the behaviour of a single bub...
The objective of the present note is to provide the basic concepts of numerical modelling of cavitat...
This paper presents comparisons between two-dimensional (2D) CFD simulations and experimental invest...
The modelling of two-phase flows, and in particular the modelling of cavitating flows, represents a ...
Cavitating flow in nozzles is a complex flow which implies a highly turbulent two-phase one. An acc...
The predictive capability of three transport equation-based cavitation models is evaluated for attac...
This paper is concerning with simulations of cavitation flow around the NACA 0015 hydrofoil. The pro...
Downloaded Fshift the cavitation regions. The objective of the present study is to develop a practic...
This paper presents the development of a quasi-homogeneous isenthalpic cavitation flow model, suitab...
This paper presents a numerical study of the flow around a 2D hydrofoil, proposed as a test case for...
Extending Brennen’s original formulation [1], this paper illustrates the development of a modified b...
An homogeneous cavitation flow model capable of accounting for both the effects of thermal cavitatio...
Cavitation is defined as the process of formation and disappearance of a vapor phase in a liquid whe...
The present paper illustrates recent theoretical and numerical activities on cavitating flows carrie...
Asme Paper FEDSM2005-77142 The simulation of cavitating flow is a difficult task, due to the large ...
The focus of research works on cavitation has changed since the 1960s; the behaviour of a single bub...
The objective of the present note is to provide the basic concepts of numerical modelling of cavitat...
This paper presents comparisons between two-dimensional (2D) CFD simulations and experimental invest...
The modelling of two-phase flows, and in particular the modelling of cavitating flows, represents a ...
Cavitating flow in nozzles is a complex flow which implies a highly turbulent two-phase one. An acc...
The predictive capability of three transport equation-based cavitation models is evaluated for attac...
This paper is concerning with simulations of cavitation flow around the NACA 0015 hydrofoil. The pro...
Downloaded Fshift the cavitation regions. The objective of the present study is to develop a practic...