AbstractThis work deals with numerical solution of unsteady flow in turbine stage. We use models of compressible single-phase flow of air and two-phase flow of wet steam. Presented numerical methods are based on different stator-rotor matching algorithms, as well as different numerical schemes. Numerical results achieved by both methods and flow models are discussed
In the present study, the unsteady flow phenomenon (identified as rotating instability) in the last ...
The correct computation of steam subcooling, subsequent formation of nuclei and finally droplet grow...
The paper presents a numerical simulation of the transonic flow of steam with a non-equilibrium phas...
AbstractThis work deals with numerical solution of unsteady flow in turbine stage. We use models of ...
The condensation process in a steam turbine is in reality an essentially unsteady phenomenon. There ...
The steam flow past a last stage (the eleventh stage) of the high pressure part of the TK120 steam t...
In steam power plants condensation already starts in the flow path of the low pressure part of the s...
In steam power plants condensation already starts in the flow path of the low pressure part of the s...
Nonsynchronous excitation under low volume operation is a major risk to the mechanical integrity of ...
Unsteady 3-D wet-steam flows through three-stage stator-rotor blade rows in a low-pressure steam tur...
This dissertation deals with modeling of steam flow through the turbines stage with partial admissio...
Issues related to numerical analyses of turbine stage stator/rotor interactions are disceussed, with...
In this publication, an overview of the current state of wetness modeling at the Institute of Therma...
The unsteady flow phenomenon (identified as rotating instability) in the last stage of a low-pressur...
The low efficiency of wet steam turbine is mainly attributed to wetness losses. To investigate the m...
In the present study, the unsteady flow phenomenon (identified as rotating instability) in the last ...
The correct computation of steam subcooling, subsequent formation of nuclei and finally droplet grow...
The paper presents a numerical simulation of the transonic flow of steam with a non-equilibrium phas...
AbstractThis work deals with numerical solution of unsteady flow in turbine stage. We use models of ...
The condensation process in a steam turbine is in reality an essentially unsteady phenomenon. There ...
The steam flow past a last stage (the eleventh stage) of the high pressure part of the TK120 steam t...
In steam power plants condensation already starts in the flow path of the low pressure part of the s...
In steam power plants condensation already starts in the flow path of the low pressure part of the s...
Nonsynchronous excitation under low volume operation is a major risk to the mechanical integrity of ...
Unsteady 3-D wet-steam flows through three-stage stator-rotor blade rows in a low-pressure steam tur...
This dissertation deals with modeling of steam flow through the turbines stage with partial admissio...
Issues related to numerical analyses of turbine stage stator/rotor interactions are disceussed, with...
In this publication, an overview of the current state of wetness modeling at the Institute of Therma...
The unsteady flow phenomenon (identified as rotating instability) in the last stage of a low-pressur...
The low efficiency of wet steam turbine is mainly attributed to wetness losses. To investigate the m...
In the present study, the unsteady flow phenomenon (identified as rotating instability) in the last ...
The correct computation of steam subcooling, subsequent formation of nuclei and finally droplet grow...
The paper presents a numerical simulation of the transonic flow of steam with a non-equilibrium phas...
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