The paper presents the computational investigations of model Francis turbines (for high kinematic specific speed 95–115. Numerical calculations were carried out for flow systems including two different Francis runners. The computational fluid dynamics (CFD) analyses were performed for accurately mapped geometry of the laboratory test rig with installed model turbine. Commercial software was used for analysis
This paper presents the use of a commercial Navier-Stokes turbulent flow code (FLUENT) as a mean to ...
This paper presents a methodology to evaluate the technical state of a Francis turbine by shaft roto...
CFD has played a significant role to investigate the performance and improve the design of hydraulic...
The paper presents the computational investigations of model Francis turbines (for high kinematic sp...
Hydraulic turbines are widely used to meet real-time electricity demands. Computational fluid dynami...
In any hydro power plant its turbine enacts a major role in deciding the competence as lot of phenom...
The extensive investigation and profound understanding of the hydraulic characteristics of the Franc...
for high performance Mitsubishi Heavy Industries, Ltd. (MHI) is developing and improving the perform...
This paper proposes a new methodology to evaluate the technical state of a Francis turbine installed...
Hydraulic turbines need to operate at regimes other than designed ones. Off-design functioning of ...
This project describes and explains the fluid flow conditions and parameters within a Francis Turbin...
The paper presents numerical simulations of flow in a model of a high head Francis turbine and compa...
The design and performance analysis of hydraulic turbines are two very critical aspects of any hydro...
The Francis-99 test case consists in a high head Francis turbine model, which geometry together with...
This paper proposes a new methodology to evaluate the technical state of a Francis turbine installed...
This paper presents the use of a commercial Navier-Stokes turbulent flow code (FLUENT) as a mean to ...
This paper presents a methodology to evaluate the technical state of a Francis turbine by shaft roto...
CFD has played a significant role to investigate the performance and improve the design of hydraulic...
The paper presents the computational investigations of model Francis turbines (for high kinematic sp...
Hydraulic turbines are widely used to meet real-time electricity demands. Computational fluid dynami...
In any hydro power plant its turbine enacts a major role in deciding the competence as lot of phenom...
The extensive investigation and profound understanding of the hydraulic characteristics of the Franc...
for high performance Mitsubishi Heavy Industries, Ltd. (MHI) is developing and improving the perform...
This paper proposes a new methodology to evaluate the technical state of a Francis turbine installed...
Hydraulic turbines need to operate at regimes other than designed ones. Off-design functioning of ...
This project describes and explains the fluid flow conditions and parameters within a Francis Turbin...
The paper presents numerical simulations of flow in a model of a high head Francis turbine and compa...
The design and performance analysis of hydraulic turbines are two very critical aspects of any hydro...
The Francis-99 test case consists in a high head Francis turbine model, which geometry together with...
This paper proposes a new methodology to evaluate the technical state of a Francis turbine installed...
This paper presents the use of a commercial Navier-Stokes turbulent flow code (FLUENT) as a mean to ...
This paper presents a methodology to evaluate the technical state of a Francis turbine by shaft roto...
CFD has played a significant role to investigate the performance and improve the design of hydraulic...