Add to ORKGThe formation of water droplets within condensing steam turbines is a complex process that occurs at supersaturated, nonequilibrium conditions and is influenced by the unsteady segmentation of blade wakes by successive blade rows. This is often referred to as 'wake chopping', and its effect on the condensation process is the subject of this paper. The practical significance is that thermodynamic 'wetness losses' (which constitute a major fraction of the overall loss) are strongly affected by droplet size. Likewise, droplet deposition and the various ensuing two-phase phenomena (such as film migration and coarse-water formation) also depend on the spectrum of droplet sizes in the primary fog. The majority of wake-chopping models presented in...
Within steam turbine flows, condensation phenomena give rise to complex droplet spectra that can spa...
In low-pressure steam turbines, water droplet formation on the surfaces of stationary stator blades ...
This is the final version. Available on open access from MDPI via the DOI in this recordData Availab...
Abstract The formation of water droplets within condensing steam turbines is a comple...
While wetness formation in steady flows such as nozzles and cascades is well understood, predicting...
While wetness formation in steady flows such as nozzles and cascades is well understood, predicting ...
Accurate prediction of the droplet size distribution in steam turbines is crucial for the correct an...
Massive droplets can be generated to form two-phase flow in steam turbines, leading to erosion issue...
The three-stage low-pressure model steam turbine at the Institute of Thermal Turbomachinery and Mach...
Wetness formation in condensing nozzle flow has been well researched and very good agreement has bee...
In the first part of the paper steady two-phase flow predictions have been performed for the last st...
In the first part of the paper steady two-phase flow predictions have been performed for the last st...
For all the deployment of the non-fossil energy sources the steam turbine remains the most important...
The complex three-dimensional two-phase flow in a low pressure steam turbine is investigated with co...
The complex three-dimensional two-phase flow in a low pressure steam turbine is investigated with co...
Within steam turbine flows, condensation phenomena give rise to complex droplet spectra that can spa...
In low-pressure steam turbines, water droplet formation on the surfaces of stationary stator blades ...
This is the final version. Available on open access from MDPI via the DOI in this recordData Availab...
Abstract The formation of water droplets within condensing steam turbines is a comple...
While wetness formation in steady flows such as nozzles and cascades is well understood, predicting...
While wetness formation in steady flows such as nozzles and cascades is well understood, predicting ...
Accurate prediction of the droplet size distribution in steam turbines is crucial for the correct an...
Massive droplets can be generated to form two-phase flow in steam turbines, leading to erosion issue...
The three-stage low-pressure model steam turbine at the Institute of Thermal Turbomachinery and Mach...
Wetness formation in condensing nozzle flow has been well researched and very good agreement has bee...
In the first part of the paper steady two-phase flow predictions have been performed for the last st...
In the first part of the paper steady two-phase flow predictions have been performed for the last st...
For all the deployment of the non-fossil energy sources the steam turbine remains the most important...
The complex three-dimensional two-phase flow in a low pressure steam turbine is investigated with co...
The complex three-dimensional two-phase flow in a low pressure steam turbine is investigated with co...
Within steam turbine flows, condensation phenomena give rise to complex droplet spectra that can spa...
In low-pressure steam turbines, water droplet formation on the surfaces of stationary stator blades ...
This is the final version. Available on open access from MDPI via the DOI in this recordData Availab...