Add to ORKGThe aim of this work is to estimate the losses in steam flow through an LP steam turbine rotor and the who]e stage. Two types of losses occur in steam flow, aerodynamic (profile, secondary flow, leakage) and thermodynamic (due to addition of heat caused by condensation). The presented numerical results are split into two groups. First, a comparison of three different calculation methods of steam flow is carried out. To this end, the geometry of an LP steam turbine's last rotor is chosen. The first examined method is the Streamline Curvature Method (SCM) used on the meridional plane with loss correlations, the other two being commercial and in-house CFD codes, solving the Reynolds-averaged Navier-Stokes equations for a 3D flow. The first two...
Steam turbine engines are essential devices in power generation and other industrial applications, c...
The low pressure (LP) exhaust system presents a promising avenue for improving the performance of la...
In this publication, an overview of the current state of wetness modeling at the Institute of Therma...
The results of numerical simulations to predict the performance of different steam models have been ...
The paper deals with the wet steam flow in a steam turbine operating in a nuclear power plant. Using...
The present paper describes an experimental and numerical study of steam condensing flow in a linear...
The correct computation of steam subcooling, subsequent formation of nuclei and finally droplet grow...
preferable way for obtaining the solution. Numerous TRODUCTION Prediction of steam turbine rotor and...
In this paper, a method for flow calculation in large steam turbines is presented. The method is bas...
During the operation of the low-pressure steam turbine, condensation phenomenon is observed in stati...
Copyright © 2014 by Siemens Energy, Inc. The correct computation of steam subcooling, subsequent for...
When steam is used in fluid machinery, phase transition can occur that affects not only the flow fie...
Copyright © 2014 by ASME. A numerical study on the flow in a three stage low pressure industrial ste...
The steam flow past a last stage (the eleventh stage) of the high pressure part of the TK120 steam t...
A better understanding of the mechanism of loss generation will aid steam path design and may lead t...
Steam turbine engines are essential devices in power generation and other industrial applications, c...
The low pressure (LP) exhaust system presents a promising avenue for improving the performance of la...
In this publication, an overview of the current state of wetness modeling at the Institute of Therma...
The results of numerical simulations to predict the performance of different steam models have been ...
The paper deals with the wet steam flow in a steam turbine operating in a nuclear power plant. Using...
The present paper describes an experimental and numerical study of steam condensing flow in a linear...
The correct computation of steam subcooling, subsequent formation of nuclei and finally droplet grow...
preferable way for obtaining the solution. Numerous TRODUCTION Prediction of steam turbine rotor and...
In this paper, a method for flow calculation in large steam turbines is presented. The method is bas...
During the operation of the low-pressure steam turbine, condensation phenomenon is observed in stati...
Copyright © 2014 by Siemens Energy, Inc. The correct computation of steam subcooling, subsequent for...
When steam is used in fluid machinery, phase transition can occur that affects not only the flow fie...
Copyright © 2014 by ASME. A numerical study on the flow in a three stage low pressure industrial ste...
The steam flow past a last stage (the eleventh stage) of the high pressure part of the TK120 steam t...
A better understanding of the mechanism of loss generation will aid steam path design and may lead t...
Steam turbine engines are essential devices in power generation and other industrial applications, c...
The low pressure (LP) exhaust system presents a promising avenue for improving the performance of la...
In this publication, an overview of the current state of wetness modeling at the Institute of Therma...