On the performance of a cascade of improved turbine nozzle blades in nucleating steam. Part 2: wake traverses

Farhang Bakhtar; ZA Mamat; C Jadayel

doi:10.1243/09544062JMES1256

On the performance of a cascade of improved turbine nozzle blades in nucleating steam. Part 2: wake traverses

Farhang Bakhtar, ZA Mamat, C Jadayel

Mechanical Engineering

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19 Citations (Scopus)

Abstract

This article is the second of a set and describes the results of wake traverses and droplet measurements in a cascade of steam turbine improved nozzle blade profiles. In the course of expansion of steam in turbines the state path crosses the saturation line, the fluid nucleates 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. To study these problems systematically the turbine two-phase flow conditions need to be reproduced realistically, which can be done under blow down conditions. Following earlier studies of typical profiles in nucleating steam the performance of a new design of blades is presented. A substantially improved aerodynamic performance is achieved by the new profile.

Original language	English
Pages (from-to)	1915-1929
Number of pages	15
Journal	Institution of Mechanical Engineers. Proceedings. Part C: Journal of Mechanical Engineering Science
Volume	223
Issue number	8
DOIs	https://doi.org/10.1243/09544062JMES1256
Publication status	Published - 1 Aug 2009

Keywords

two-phase flow
blow-down tunnel
steam turbines
cascades of blades
non-equilibrium flow
nucleating steam

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title = "On the performance of a cascade of improved turbine nozzle blades in nucleating steam. Part 2: wake traverses",

abstract = "This article is the second of a set and describes the results of wake traverses and droplet measurements in a cascade of steam turbine improved nozzle blade profiles. In the course of expansion of steam in turbines the state path crosses the saturation line, the fluid nucleates 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. To study these problems systematically the turbine two-phase flow conditions need to be reproduced realistically, which can be done under blow down conditions. Following earlier studies of typical profiles in nucleating steam the performance of a new design of blades is presented. A substantially improved aerodynamic performance is achieved by the new profile.",

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N2 - This article is the second of a set and describes the results of wake traverses and droplet measurements in a cascade of steam turbine improved nozzle blade profiles. In the course of expansion of steam in turbines the state path crosses the saturation line, the fluid nucleates 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. To study these problems systematically the turbine two-phase flow conditions need to be reproduced realistically, which can be done under blow down conditions. Following earlier studies of typical profiles in nucleating steam the performance of a new design of blades is presented. A substantially improved aerodynamic performance is achieved by the new profile.

AB - This article is the second of a set and describes the results of wake traverses and droplet measurements in a cascade of steam turbine improved nozzle blade profiles. In the course of expansion of steam in turbines the state path crosses the saturation line, the fluid nucleates 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. To study these problems systematically the turbine two-phase flow conditions need to be reproduced realistically, which can be done under blow down conditions. Following earlier studies of typical profiles in nucleating steam the performance of a new design of blades is presented. A substantially improved aerodynamic performance is achieved by the new profile.

KW - two-phase flow

KW - blow-down tunnel

KW - steam turbines

KW - cascades of blades

KW - non-equilibrium flow

KW - nucleating steam

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DO - 10.1243/09544062JMES1256

M3 - Article

SN - 2041-2983

VL - 223

SP - 1915

EP - 1929

JO - Institution of Mechanical Engineers. Proceedings. Part C: Journal of Mechanical Engineering Science

JF - Institution of Mechanical Engineers. Proceedings. Part C: Journal of Mechanical Engineering Science

IS - 8

ER -

On the performance of a cascade of improved turbine nozzle blades in nucleating steam. Part 2: wake traverses

Abstract

Keywords

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