In the presented paper authors focused on numerical analysis of the flow through selected constructions of Kaplan and semi-Kaplan machines. The paper contains three computation examples; each of them concentrates on different aspects of computational fluid dynamics (CFD) utilization. The numerical tests of various turbulent models for Kaplan turbine CFD applications, numerical determination of the cam curve characteristic and numerical analysis of operating parameters of the semi-Kaplan machine have been presented. The methodology of the implemented numerical computations and final results of calculations have been discussed in each of the presented study cases
The Reynolds-averaged Navier-Stokes equations with the RNG k-ε turbulence model closure are utilized...
The role of hydropower has become increasingly essential following the introduction of intermittent ...
Pelton turbine (or Pelton wheel) is among the most efficient impulse turbines and has retained its e...
In the presented paper authors focused on numerical analysis of the flow through selected constructi...
Swirling flow and unsteady phenomena are common in technical applications, such as turbines, pumps a...
CFD (Computational Fluid Dynamic) is today a standard procedure for analyzing and simulating the fl...
A parallel multiblock finite volume CFD (Computational Fluid Dynamics) code CALC-PMB [3, 10, 11] (Pa...
The increasing variability of the energy market has created a less favourable context for hydropower...
The U9 Kaplan turbine is simulated at two operating conditions using conventional and non-convention...
The aim of this thesis is to support the development of a procedure to design hydraulic turbines of ...
The present research depicts an analysis of the implementation of computational fluid dynamics (CFD)...
This thesis investigates turbulent flow in water turbines, focusing onthe flow in the vicinity of re...
Hydropower is a renewable, reliable and highly efficient source of energy. Hydropower has the abilit...
The paper presents the utilization of Computational Fluid Dynamics for calculating the flow through ...
The design and performance analysis of hydraulic turbines are two very critical aspects of any hydro...
The Reynolds-averaged Navier-Stokes equations with the RNG k-ε turbulence model closure are utilized...
The role of hydropower has become increasingly essential following the introduction of intermittent ...
Pelton turbine (or Pelton wheel) is among the most efficient impulse turbines and has retained its e...
In the presented paper authors focused on numerical analysis of the flow through selected constructi...
Swirling flow and unsteady phenomena are common in technical applications, such as turbines, pumps a...
CFD (Computational Fluid Dynamic) is today a standard procedure for analyzing and simulating the fl...
A parallel multiblock finite volume CFD (Computational Fluid Dynamics) code CALC-PMB [3, 10, 11] (Pa...
The increasing variability of the energy market has created a less favourable context for hydropower...
The U9 Kaplan turbine is simulated at two operating conditions using conventional and non-convention...
The aim of this thesis is to support the development of a procedure to design hydraulic turbines of ...
The present research depicts an analysis of the implementation of computational fluid dynamics (CFD)...
This thesis investigates turbulent flow in water turbines, focusing onthe flow in the vicinity of re...
Hydropower is a renewable, reliable and highly efficient source of energy. Hydropower has the abilit...
The paper presents the utilization of Computational Fluid Dynamics for calculating the flow through ...
The design and performance analysis of hydraulic turbines are two very critical aspects of any hydro...
The Reynolds-averaged Navier-Stokes equations with the RNG k-ε turbulence model closure are utilized...
The role of hydropower has become increasingly essential following the introduction of intermittent ...
Pelton turbine (or Pelton wheel) is among the most efficient impulse turbines and has retained its e...