On the Experimental Evaluation of Loss Production and Reduction in a Highly Loaded Low Pressure Turbine Cascade

On the Experimental Evaluation of Loss Production and Reduction in a Highly Loaded Low Pressure Turbine Cascade

Bibliographic Details
Main Author: Bear, Philip Steven
Language:English
Published: Wright State University / OhioLINK 2016
Subjects:
Aerospace Engineering
Engineering
turbines
PIV
SPIV
particle image velocimetry
low pressure turbines
high lift turbines
total pressure loss
experimental measurements
aerodynamics
total pressure transport
turbulent flow
reynolds stress
turbulence production
deformation work
Online Access:http://rave.ohiolink.edu/etdc/view?acc_num=wright148464084439115
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spelling ndltd-OhioLink-oai-etd.ohiolink.edu-wright1484640844391152021-08-03T06:39:47Z On the Experimental Evaluation of Loss Production and Reduction in a Highly Loaded Low Pressure Turbine Cascade Bear, Philip Steven Aerospace Engineering Engineering turbines PIV SPIV particle image velocimetry low pressure turbines high lift turbines total pressure loss experimental measurements aerodynamics total pressure transport turbulent flow reynolds stress turbulence production deformation work Improvements in turbine design methods have resulted in the development of blade profiles with both high lift and good Reynolds lapse characteristics. An increase in aerodynamic loading of blades in the low pressure turbine section of aircraft gas turbine engines has the potential to reduce engine weight or increase power extraction. Increased blade loading means larger pressure gradients and increased secondary losses near the endwall. Prior work has emphasized the importance of reducing these losses if highly loaded blades are to be utilized. The present study analyzes the secondary flow field of the front-loaded low-pressure turbine blade designated L2F with and without blade profile contouring at the junction of the blade and endwall. The current work explores the loss production mechanisms inside the low pressure turbine cascade. Stereoscopic particle image velocimetry data, total pressure loss data and oil flow visualization are used to describe the secondary flow field. The flow is analyzed in terms of total pressure loss, vorticity, Q-Criterion, Reynolds’ stresses, turbulence intensity and turbulence production. The flow description is then expanded upon using an Implicit Large Eddy Simulation of the flow field. The RANS momentum equations contain terms with static pressure derivatives. With some manipulation these equations can be rearranged to form an equation for the change in total pressure along a streamline as a function of velocity only. After simplifying for the flow field in question the equation can be interpreted as the total pressure transport along a streamline. A comparison of the total pressure transport calculated from the velocity components and the total pressure loss is presented and discussed. Peak values of total pressure transport overlap peak values of total pressure loss through and downstream of the passage suggesting that total pressure transport is a useful tool for localizing and predicting loss origins and loss development using velocity data which can be obtained non-intrusively. 2016 English text Wright State University / OhioLINK http://rave.ohiolink.edu/etdc/view?acc_num=wright148464084439115 http://rave.ohiolink.edu/etdc/view?acc_num=wright148464084439115 unrestricted This thesis or dissertation is protected by copyright: all rights reserved. It may not be copied or redistributed beyond the terms of applicable copyright laws.
collection NDLTD
language English
sources NDLTD
topic Aerospace Engineering
Engineering
turbines
PIV
SPIV
particle image velocimetry
low pressure turbines
high lift turbines
total pressure loss
experimental measurements
aerodynamics
total pressure transport
turbulent flow
reynolds stress
turbulence production
deformation work
spellingShingle Aerospace Engineering
Engineering
turbines
PIV
SPIV
particle image velocimetry
low pressure turbines
high lift turbines
total pressure loss
experimental measurements
aerodynamics
total pressure transport
turbulent flow
reynolds stress
turbulence production
deformation work
Bear, Philip Steven
On the Experimental Evaluation of Loss Production and Reduction in a Highly Loaded Low Pressure Turbine Cascade
author Bear, Philip Steven
author_facet Bear, Philip Steven
author_sort Bear, Philip Steven
title On the Experimental Evaluation of Loss Production and Reduction in a Highly Loaded Low Pressure Turbine Cascade
title_short On the Experimental Evaluation of Loss Production and Reduction in a Highly Loaded Low Pressure Turbine Cascade
title_full On the Experimental Evaluation of Loss Production and Reduction in a Highly Loaded Low Pressure Turbine Cascade
title_fullStr On the Experimental Evaluation of Loss Production and Reduction in a Highly Loaded Low Pressure Turbine Cascade
title_full_unstemmed On the Experimental Evaluation of Loss Production and Reduction in a Highly Loaded Low Pressure Turbine Cascade
title_sort on the experimental evaluation of loss production and reduction in a highly loaded low pressure turbine cascade
publisher Wright State University / OhioLINK
publishDate 2016
url http://rave.ohiolink.edu/etdc/view?acc_num=wright148464084439115
work_keys_str_mv AT bearphilipsteven ontheexperimentalevaluationoflossproductionandreductioninahighlyloadedlowpressureturbinecascade
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