The paper presents numerical simulations of flow in a model of a high head Francis turbine and comparison of results to the measurements. Numerical simulations were done by two CFD (Computational Fluid Dynamics) codes, Ansys CFX and OpenFOAM. Steady-state simulations were performed by k-epsilon and SST model, while for transient simulations the SAS SST ZLES model was used. With proper grid refinement in distributor and runner and with taking into account losses in labyrinth seals very accurate prediction of torque on the shaft, head and efficiency was obtained. Calculated axial and circumferential velocity components on two planes in the draft tube matched well with experimental results
This paper proposes a new methodology to evaluate the technical state of a Francis turbine installed...
The applications of Computational Fluid Dynamics, CFD, to hydraulic machines life require the abilit...
ABSTRACT: This paper presents a detailed comparison of steady and unsteady turbulent flow simulation...
The paper presents numerical simulations of flow in a model of a high head Francis turbine and compa...
This work investigates the flow in the scale model of the high-head Tokke Francis turbine at part lo...
Hydraulic turbines are widely used to meet real-time electricity demands. Computational fluid dynami...
Francis-99 is a set of workshops aiming to determine the state of the art of high head Francis turbi...
In the present study, a reduced model of the Francis-99 model turbine was investigated numerically a...
This work presents results from OpenFOAM simulations conducted on a swirl generator designed to give...
This master's thesis deals with simulation of vortex structure which is created in the draft tube of...
The dynamics of the rotating vortex taking place in the discharge ring of a Francis turbine for part...
Hydropower, and especially Francis turbines, for electricity production has a history of more than 1...
Today, the steadily increasing amount of renewable energy production is changing the way hydraulic p...
As energy demand is growing along with the quest for green energy the operating range for hydropower...
The simulations of high head Francis turbine model (Tokke) are performed for three operating conditi...
This paper proposes a new methodology to evaluate the technical state of a Francis turbine installed...
The applications of Computational Fluid Dynamics, CFD, to hydraulic machines life require the abilit...
ABSTRACT: This paper presents a detailed comparison of steady and unsteady turbulent flow simulation...
The paper presents numerical simulations of flow in a model of a high head Francis turbine and compa...
This work investigates the flow in the scale model of the high-head Tokke Francis turbine at part lo...
Hydraulic turbines are widely used to meet real-time electricity demands. Computational fluid dynami...
Francis-99 is a set of workshops aiming to determine the state of the art of high head Francis turbi...
In the present study, a reduced model of the Francis-99 model turbine was investigated numerically a...
This work presents results from OpenFOAM simulations conducted on a swirl generator designed to give...
This master's thesis deals with simulation of vortex structure which is created in the draft tube of...
The dynamics of the rotating vortex taking place in the discharge ring of a Francis turbine for part...
Hydropower, and especially Francis turbines, for electricity production has a history of more than 1...
Today, the steadily increasing amount of renewable energy production is changing the way hydraulic p...
As energy demand is growing along with the quest for green energy the operating range for hydropower...
The simulations of high head Francis turbine model (Tokke) are performed for three operating conditi...
This paper proposes a new methodology to evaluate the technical state of a Francis turbine installed...
The applications of Computational Fluid Dynamics, CFD, to hydraulic machines life require the abilit...
ABSTRACT: This paper presents a detailed comparison of steady and unsteady turbulent flow simulation...