Journal ArticleDOI
Turbine Endwall Aerodynamics and Heat Transfer
TLDR
A review of the literature on turbine passage aerodynamics and endwall heat transfer can be found in this article, where the effects of near-endwall secondary flows on endwall cooling are discussed.Abstract:
This review addresses recent literature on turbine passage aerodynamics and endwall heat transfer; articles that describe the endwall flow and cooling problems are summarized, recent activity on improving endwall aerothermal design is discussed, improved cooling schemes are proposed, and methods for managing secondary flows to allow more effective cooling are suggested. Much attention is given to aerodynamic losses associated with secondary flows developed near the endwalls. The endwall region flowfield is influenced by the stagnation zones established as the endwall approach flow boundary layer meets the airfoil leading edges, by the curvature of the passages, by the steps and gaps on the endwall surface ahead of and within the passage, by the leakage and coolant flows introduced through the endwall surface ahead of and within the passage, by the tip leakage flows between the blades and shroud in the rotor endwall region, and by many more effects. Recent combustor redesigns have flattened the turbine inlet temperature profile and have raised the turbine inlet temperatures. This, coupled with a continued need to improve engine durability and availability, has spurred strong interest in thermal control of the turbine endwall regions. Thus, much of the literature presented herein is focused on endwall cooling and, in particular, the effects of near-endwall secondary flows on endwall cooling.read more
Citations
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Proceedings ArticleDOI
Turbine Blade Platform Film Cooling With Typical Stator-Rotor Purge Flow and Discrete-Hole Film Cooling
TL;DR: In this article, the effect of hole configurations on platform film cooling was investigated in a five-blade cascade with medium high Mach number condition (0.27 and 0.44 at the inlet and the exit, respectively).
Journal ArticleDOI
Film-Cooling Effectiveness on a Rotating Turbine Platform Using Pressure Sensitive Paint Technique
TL;DR: In this article, the effects of rotation on the platform film cooling effectiveness were investigated on a rotating turbine blade platform for coolant injection through discrete holes using pressure sensitive paint technique, where two distinct coolant supply loops were incorporated into the rotor to facilitate separate feeds for upstream cooling using stator-rotor gap purge flow and downstream discrete-hole film cooling.
Journal ArticleDOI
Flow Measurements in a First Stage Nozzle Cascade Having Endwall Contouring, Leakage, and Assembly Features
J. D. Piggush,Terrence W. Simon +1 more
TL;DR: In this article, an n-factorial study was performed to quantify the importance of component misalignment and leakage flow effects on aerodynamic losses in a passage having one contoured and one straight endwall.
Journal ArticleDOI
Heat Transfer Measurements in a First-Stage Nozzle Cascade Having Endwall Contouring: Misalignment and Leakage Studies
TL;DR: In this article, the authors evaluated endwall heat transfer rates in a cascade that is representative of a first stage stator passage and incorporated endwall assembly features and leakage. But the authors focused on the effect of leakage flow and misalignment on the endwall boundary layer.
Journal ArticleDOI
Film Cooling Effectiveness Distributions on a Turbine Blade Cascade Platform With Stator-Rotor Purge and Discrete Film Hole Flows
TL;DR: In this paper, an experimental investigation to obtain detailed film cooling effectiveness distributions on a cooled turbine blade platform within a linear cascade has been completed, where an additional coolant is supplied to the downstream half of the platform via discrete film cooling holes.
References
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Journal ArticleDOI
Recent Progress in the Understanding of Basic Aspects of Secondary Flows in Turbine Blade Passages
TL;DR: In this paper, the authors describe tourbillonnaires de l'ecoulement secondaire and leur influence on les caracteristiques de couche limite a la paroi d'extremite, including the origin, croissance, and distribution spatiale des pertes dans des passages d'aubes de turbine.
Journal ArticleDOI
Three-Dimensional Flow Within a Turbine Cascade Passage
TL;DR: In this article, detailed measurements of the subsonic flow in a large-scale, plane turbine cascade were made to evaluate the three-dimensional nature of the flow field with a passage aspect ratio of 1.0 with a collateral inlet boundary layer.
Journal ArticleDOI
Flow Visualization in a Linear Turbine Cascade of High Performance Turbine Blades
TL;DR: In this paper, multiple smoke wires are used to investigate the secondary flow near the endwall of a plane cascade with blade shapes used in high-performance turbine stages, and traces of the smoke generated by the wires are visualized with a laser light sheet illuminating various cross sections around the cascade.
Journal ArticleDOI
Crossflows in a Turbine Cascade Passage
TL;DR: In this article, the qualitative behavior of the endwall crossflow was found to be correlated by a relatively simple expression, based on the flow angle deviation, which can be used to substantiate analytical models of endwall flow.
Journal ArticleDOI
Secondary Flows in Axial Turbines—A Review
TL;DR: It is concluded that accurate routine prediction of secondary flow losses has not yet been achieved, and must await either a better turbulence model or more experiments to reveal new endwall loss production mechanisms.