Add to ORKGA computational procedure for the mechanism of shear between the liquid sublayer and air cavity in the cavitation zone of a submerged journal bearing is presented here. Using the mass conservation principle, Elrod\u27s universal equation is modified to take into consideration the shear of the air cavity in the cavitation region. Results of steady state and transient response for the submerged journal bearing using the present approach are compared with the universal equation based on the striated flow in the cavitation region. At steady state, the angular extent of cavitation region predicted by the present approach is higher than that predicted by Elrod\u27s model and the limit cycle journal transient response using the present approach pr...
The purpose of this paper is to present the two-dimensional linear stability analysis considering th...
This paper presents the development of a quasi-homogeneous isenthalpic cavitation flow model, suitab...
Accurate prediction of cavitation is an important feature in hydrodynamic bearing modeling. Especial...
A computational procedure for the mechanism of shear between the liquid sublayer and air cavity in t...
A numerical procedure incorporating cavitation effects on the dynamics of journal bearings is presen...
Visual observations and pressure measurements in the cavitation zone of a submerged journal bearing ...
A theoretical investigation is made of the evolution of a vapor-bubble for a submerged journal beari...
The paper presents a two-sided approach to establish understanding of the cavitation phenomenon in d...
A numerical solution to a theoretical model of vapor cavitation in a dynamically loaded journal bear...
The dynamio characteristics of journal bearings have been predicted by solving Reynolds equation wit...
Vapor cavitation for a submerged journal bearing under dynamically loaded conditions was investigate...
Appropriate boundary conditions for a sound cavitation model. The basics of a universal cavitation m...
Cavitation has a potential effect on the performance of full circle journal bearings. This paper stu...
The stability of a journal bearing is numerically predicted when a unidirectional periodic external ...
A modified governing equation is derived incorporating the effects of roughness and cavitation in a ...
The purpose of this paper is to present the two-dimensional linear stability analysis considering th...
This paper presents the development of a quasi-homogeneous isenthalpic cavitation flow model, suitab...
Accurate prediction of cavitation is an important feature in hydrodynamic bearing modeling. Especial...
A computational procedure for the mechanism of shear between the liquid sublayer and air cavity in t...
A numerical procedure incorporating cavitation effects on the dynamics of journal bearings is presen...
Visual observations and pressure measurements in the cavitation zone of a submerged journal bearing ...
A theoretical investigation is made of the evolution of a vapor-bubble for a submerged journal beari...
The paper presents a two-sided approach to establish understanding of the cavitation phenomenon in d...
A numerical solution to a theoretical model of vapor cavitation in a dynamically loaded journal bear...
The dynamio characteristics of journal bearings have been predicted by solving Reynolds equation wit...
Vapor cavitation for a submerged journal bearing under dynamically loaded conditions was investigate...
Appropriate boundary conditions for a sound cavitation model. The basics of a universal cavitation m...
Cavitation has a potential effect on the performance of full circle journal bearings. This paper stu...
The stability of a journal bearing is numerically predicted when a unidirectional periodic external ...
A modified governing equation is derived incorporating the effects of roughness and cavitation in a ...
The purpose of this paper is to present the two-dimensional linear stability analysis considering th...
This paper presents the development of a quasi-homogeneous isenthalpic cavitation flow model, suitab...
Accurate prediction of cavitation is an important feature in hydrodynamic bearing modeling. Especial...