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On the performance of a cascade of improved turbine nozzle blades in nucleating steam - Part 3: Theoretical analysis

This article is the last of a set and describes the analysis of the performance of an improved steam turbine nozzle blade profile. In the course of expansion of steam in turbines, the state path crosses the saturation line, the fluid nucleates to become wet, and the succeeding stages have to operate...

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Main Authors: Bakhtar F., Zamri M.Y.
Other Authors: 7003829091
Format: Conference paper
Published: 2023
Subjects:
Blow-down tunnel
Cascades of blades
Non-equilibrium flow
Nucleating steam
Steam turbines
Time-marching
Two-phase flow
Wet steam
Aerodynamics
Design
Marine engines
Multiphase flow
Nozzles
Steam
Turbines
Non-equilibrium flows
Time marching
Turbomachine blades
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id my.uniten.dspace-30522
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spelling my.uniten.dspace-305222023-12-29T15:48:52Z On the performance of a cascade of improved turbine nozzle blades in nucleating steam - Part 3: Theoretical analysis Bakhtar F. Zamri M.Y. 7003829091 7003976733 Blow-down tunnel Cascades of blades Non-equilibrium flow Nucleating steam Steam turbines Time-marching Two-phase flow Wet steam Aerodynamics Design Marine engines Multiphase flow Nozzles Steam Steam turbines Turbines Blow-down tunnel Non-equilibrium flows Nucleating steam Time marching Wet steam Turbomachine blades This article is the last of a set and describes the analysis of the performance of an improved steam turbine nozzle blade profile. In the course of expansion of steam in turbines, the state path crosses the saturation line, the fluid nucleates to become wet, and the succeeding stages have to operate on a two-phase mixture. The formation and subsequent behaviour of the liquid phase lowers the performance of turbine wet stages. Following earlier studies of typical profiles in nucleating steam, the performance of a new design of blades is examined. A substantially improved aerodynamic performance is achieved by the new design. The effect of heat release by condensation in increasing the aerodynamic losses is not intrinsic to the system and can be avoided by design but the losses resulting from the internal heat transfer are intrinsic and considerable. Final 2023-12-29T07:48:52Z 2023-12-29T07:48:52Z 2011 Conference paper 10.1177/0954406211400346 2-s2.0-79960434474 https://www.scopus.com/inward/record.uri?eid=2-s2.0-79960434474&doi=10.1177%2f0954406211400346&partnerID=40&md5=ee0fc6be3bc41004932ae7580130a48b https://irepository.uniten.edu.my/handle/123456789/30522 225 7 1649 1671 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Blow-down tunnel
Cascades of blades
Non-equilibrium flow
Nucleating steam
Steam turbines
Time-marching
Two-phase flow
Wet steam
Aerodynamics
Design
Marine engines
Multiphase flow
Nozzles
Steam
Steam turbines
Turbines
Blow-down tunnel
Non-equilibrium flows
Nucleating steam
Time marching
Wet steam
Turbomachine blades
spellingShingle Blow-down tunnel
Cascades of blades
Non-equilibrium flow
Nucleating steam
Steam turbines
Time-marching
Two-phase flow
Wet steam
Aerodynamics
Design
Marine engines
Multiphase flow
Nozzles
Steam
Steam turbines
Turbines
Blow-down tunnel
Non-equilibrium flows
Nucleating steam
Time marching
Wet steam
Turbomachine blades
Bakhtar F.
Zamri M.Y.
On the performance of a cascade of improved turbine nozzle blades in nucleating steam - Part 3: Theoretical analysis
description This article is the last of a set and describes the analysis of the performance of an improved steam turbine nozzle blade profile. In the course of expansion of steam in turbines, the state path crosses the saturation line, the fluid nucleates to become wet, and the succeeding stages have to operate on a two-phase mixture. The formation and subsequent behaviour of the liquid phase lowers the performance of turbine wet stages. Following earlier studies of typical profiles in nucleating steam, the performance of a new design of blades is examined. A substantially improved aerodynamic performance is achieved by the new design. The effect of heat release by condensation in increasing the aerodynamic losses is not intrinsic to the system and can be avoided by design but the losses resulting from the internal heat transfer are intrinsic and considerable.
author2 7003829091
author_facet 7003829091
Bakhtar F.
Zamri M.Y.
format Conference paper
author Bakhtar F.
Zamri M.Y.
author_sort Bakhtar F.
title On the performance of a cascade of improved turbine nozzle blades in nucleating steam - Part 3: Theoretical analysis
title_short On the performance of a cascade of improved turbine nozzle blades in nucleating steam - Part 3: Theoretical analysis
title_full On the performance of a cascade of improved turbine nozzle blades in nucleating steam - Part 3: Theoretical analysis
title_fullStr On the performance of a cascade of improved turbine nozzle blades in nucleating steam - Part 3: Theoretical analysis
title_full_unstemmed On the performance of a cascade of improved turbine nozzle blades in nucleating steam - Part 3: Theoretical analysis
title_sort on the performance of a cascade of improved turbine nozzle blades in nucleating steam - part 3: theoretical analysis
publishDate 2023
_version_ 1806427375724920832
score 13.214268

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