Nucleation phenomena in a multi-stage low pressure steam turbine
Abstract During the expansion of steam in the low pressure (LP) stages of steam turbines, the originating two-phase wet-steam mixture causes considerable thermodynamic losses as well as aerodynamic losses. The reduction of these loss mechanisms is the subject of research project at the Institute of...
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| Published in | Proceedings of the Institution of Mechanical Engineers. Part A, Journal of power and energy Vol. 217; no. 4; pp. 453 - 460 |
|---|---|
| Main Authors | , , |
| Format | Journal Article Conference Proceeding |
| Language | English |
| Published |
London, England
SAGE Publications
01.01.2003
Professionnal Engineering Publishing SAGE PUBLICATIONS, INC |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0957-6509 2041-2967 |
| DOI | 10.1243/095765003322315513 |
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| Abstract | Abstract
During the expansion of steam in the low pressure (LP) stages of steam turbines, the originating two-phase wet-steam mixture causes considerable thermodynamic losses as well as aerodynamic losses. The reduction of these loss mechanisms is the subject of research project at the Institute of Steam and Gas Turbines, Aachen University.
A three-dimensional nucleating wet steam flow with homogeneous/heterogeneous nucleation in the three front stages of an industrial LP-steam turbine is investigated numerically. The steady, viscous, and compressible metastable steam flow calculations are performed with a Navier—Stokes flow solver incorporating the IAPWS-IF97 steam tables. A union numerical approach for both the homo- and heterogeneous nucleation occurring on soluble nuclei is employed to capture the effects related to the nucleation phenomenon. The model links the interfacial surface tension, the size of nuclei, the chemical characteristics of the substances forming the droplets, and the expansion rate with the nucleation rate. In order to take into account the additional viscous effects due to shrouded bladings, the open shroud cavities are modeled in detail. Droplet density spectra, radial droplet number, droplet diameter, and wetness fraction distributions at the exit of the third stage are calculated.
It is shown that impurities can cause nucleation to appear at lower supersaturations with higher nucleation rates compared to homogeneous nucleation of pure steam. In this way, thermodynamic and kinematic relaxation losses are reduced. Owing to the dissipative viscous effects near the endwalls, the nucleation fronts exhibit convex shapes. They are locally bound within the region of high expansion rates in the second stage's nozzle guide vane. For both heterogeneous and homogenous nucleating flows the wetness is highly dispersed with narrow droplet density spectra behind the three front stages. |
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| AbstractList | During the expansion of steam in the low pressure (LP) stages of steam turbines, the originating two-phase wet-steam mixture causes considerable thermodynamic losses as well as aerodynamic losses. The reduction of these loss mechanisms is the subject of research project at the Institute of Steam and Gas Turbines, Aachen University. A three-dimensional nucleating wet steam flow with homogeneous/heterogeneous nucleation in the three front stages of an industrial LP-steam turbine is investigated numerically. The steady, viscous, and compressible metastable steam flow calculations are performed with a Navier-Stokes flow solver incorporating the IAPWS-IF97 steam tables. A union numerical approach for both the homo- and heterogeneous nucleation occurring on soluble nuclei is employed to capture the effects related to the nucleation phenomenon. The model links the interfacial surface tension, the size of nuclei, the chemical characteristics of the substances forming the droplets, and the expansion rate with the nucleation rate. In order to take into account the additional viscous effects due to shrouded bladings, the open shroud cavities are modeled in detail. Droplet density spectra, radial droplet number, droplet diameter, and wetness fraction distributions at the exit of the third stage are calculated. It is shown that impurities can cause nucleation to appear at lower supersaturations with higher nucleation rates compared to homogeneous nucleation of pure steam. In this way, thermodynamic and kinematic relaxation losses are reduced. Owing to the dissipative viscous effects near the endwalls, the nucleation fronts exhibit convex shapes. They are locally bound within the region of high expansion rates in the second stage's nozzle guide vane. For both heterogeneous and homogenous nucleating flows the wetness is highly dispersed with narrow droplet density spectra behind the three front stages. Abstract During the expansion of steam in the low pressure (LP) stages of steam turbines, the originating two-phase wet-steam mixture causes considerable thermodynamic losses as well as aerodynamic losses. The reduction of these loss mechanisms is the subject of research project at the Institute of Steam and Gas Turbines, Aachen University. A three-dimensional nucleating wet steam flow with homogeneous/heterogeneous nucleation in the three front stages of an industrial LP-steam turbine is investigated numerically. The steady, viscous, and compressible metastable steam flow calculations are performed with a Navier—Stokes flow solver incorporating the IAPWS-IF97 steam tables. A union numerical approach for both the homo- and heterogeneous nucleation occurring on soluble nuclei is employed to capture the effects related to the nucleation phenomenon. The model links the interfacial surface tension, the size of nuclei, the chemical characteristics of the substances forming the droplets, and the expansion rate with the nucleation rate. In order to take into account the additional viscous effects due to shrouded bladings, the open shroud cavities are modeled in detail. Droplet density spectra, radial droplet number, droplet diameter, and wetness fraction distributions at the exit of the third stage are calculated. It is shown that impurities can cause nucleation to appear at lower supersaturations with higher nucleation rates compared to homogeneous nucleation of pure steam. In this way, thermodynamic and kinematic relaxation losses are reduced. Owing to the dissipative viscous effects near the endwalls, the nucleation fronts exhibit convex shapes. They are locally bound within the region of high expansion rates in the second stage's nozzle guide vane. For both heterogeneous and homogenous nucleating flows the wetness is highly dispersed with narrow droplet density spectra behind the three front stages. During the expansion of steam in the low pressure (LP) stages of steam turbines, the originating two-phase wet-steam mixture causes considerable thermodynamic losses as well as aerodynamic losses. The reduction of these loss mechanisms is the subject of research project at the Institute of Steam and Gas Turbines, Aachen University. A three-dimensional nucleating wet steam flow with homogeneous/heterogeneous nucleation in the three front stages of an industrial LP-steam turbine is investigated numerically. The steady, viscous, and compressible metastable steam flow calculations are performed with a Navier—Stokes flow solver incorporating the IAPWS-IF97 steam tables. A union numerical approach for both the homo- and heterogeneous nucleation occurring on soluble nuclei is employed to capture the effects related to the nucleation phenomenon. The model links the interfacial surface tension, the size of nuclei, the chemical characteristics of the substances forming the droplets, and the expansion rate with the nucleation rate. In order to take into account the additional viscous effects due to shrouded bladings, the open shroud cavities are modeled in detail. Droplet density spectra, radial droplet number, droplet diameter, and wetness fraction distributions at the exit of the third stage are calculated. It is shown that impurities can cause nucleation to appear at lower supersaturations with higher nucleation rates compared to homogeneous nucleation of pure steam. In this way, thermodynamic and kinematic relaxation losses are reduced. Owing to the dissipative viscous effects near the endwalls, the nucleation fronts exhibit convex shapes. They are locally bound within the region of high expansion rates in the second stage's nozzle guide vane. For both heterogeneous and homogenous nucleating flows the wetness is highly dispersed with narrow droplet density spectra behind the three front stages. |
| Author | Sürken, N Bohn, D. E. Kreitmeier, F |
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| Keywords | IAPWS-IF97 nucleation multi-stage calculation wetness loss two-phase flow steam turbine Steam turbine Two phase flow Nucleation Turbomachine Low pressure |
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| References_xml | – volume: 86 start-page: 402 year: 1942 article-title: Kondensationsstö?e in Lavaldüsen publication-title: Z Ver. deutscher Ing. – volume: 19 start-page: 1097 year: 1951 end-page: 1100 article-title: Nucleation in very rapid vapour expansions publication-title: J. Chem. Phys. – volume: 122 start-page: 150 year: 2000 end-page: 182 article-title: The IAPWS industrial formulation 1997 for the thermodynamic properties of water and steam publication-title: Trans. ASME, 2000 – volume: 110 start-page: 10035 issue: 20 year: 1999 end-page: 10045 article-title: Free energy of embryo formation for heterogeneous multicomponent nucleation publication-title: J. Chem. Phys. – volume: 30 start-page: 870 year: 1962 article-title: Homogeneous nucleation of vapour condensation publication-title: Am. J. Phys. – volume: 32 start-page: 1152 year: 1936 end-page: 1161 article-title: The nucleus in and the growth of hygroscopic droplets publication-title: Trans Farad. Soc. – volume: 1 start-page: 53 year: 1993 end-page: 75 article-title: Phase transition in fluid mechanics publication-title: Proc. 2nd Int. Symp. on Exp. and Computational Aerothermodynamics of Internal Flows – volume: 114 start-page: 569 year: 1992 end-page: 579 article-title: Two dimensional, nonequilibrium wet-steam calculations for nozzle and turbine cascades publication-title: J. Turbomachinery – volume-title: Kinetic Theory of Liquids year: 1946 ident: bibr2-095765003322315513 – volume: 1 start-page: 53 year: 1993 ident: bibr9-095765003322315513 publication-title: Proc. 2nd Int. Symp. on Exp. and Computational Aerothermodynamics of Internal Flows – volume-title: The Physics of Rainclouds year: 1962 ident: bibr8-095765003322315513 – ident: bibr19-095765003322315513 doi: 10.2514/6.1978-257 – volume: 122 start-page: 150 year: 2000 ident: bibr23-095765003322315513 publication-title: Trans. ASME, 2000 – ident: bibr14-095765003322315513 – ident: bibr11-095765003322315513 doi: 10.1063/1.478877 – ident: bibr4-095765003322315513 doi: 10.1119/1.1941841 – ident: bibr10-095765003322315513 – ident: bibr5-095765003322315513 – ident: bibr15-095765003322315513 – ident: bibr17-095765003322315513 doi: 10.2514/6.1990-390 – volume-title: Nucleation year: 1969 ident: bibr3-095765003322315513 – ident: bibr20-095765003322315513 doi: 10.1115/97-GT-081 – ident: bibr24-095765003322315513 – ident: bibr12-095765003322315513 – ident: bibr7-095765003322315513 doi: 10.1039/TF9363201152 – ident: bibr18-095765003322315513 doi: 10.2514/6.1985-122 – ident: bibr25-095765003322315513 – volume-title: Testcase 6-1.5 stage axial flow turbine year: 1997 ident: bibr21-095765003322315513 – volume: 86 start-page: 402 year: 1942 ident: bibr1-095765003322315513 publication-title: Z Ver. deutscher Ing. – ident: bibr13-095765003322315513 – ident: bibr6-095765003322315513 doi: 10.1115/1.2929181 – ident: bibr16-095765003322315513 doi: 10.1063/1.1748482 – ident: bibr22-095765003322315513 doi: 10.1115/2001-GT-0481 |
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During the expansion of steam in the low pressure (LP) stages of steam turbines, the originating two-phase wet-steam mixture causes considerable... During the expansion of steam in the low pressure (LP) stages of steam turbines, the originating two-phase wet-steam mixture causes considerable thermodynamic... |
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| SubjectTerms | Applied sciences Energy Energy. Thermal use of fuels Engines and turbines Equipments for energy generation and conversion: thermal, electrical, mechanical energy, etc Exact sciences and technology |
| Title | Nucleation phenomena in a multi-stage low pressure steam turbine |
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