This experiment explored the ability of a row of cylindrical dimples' vortex shedding to entrain the cooling film in the boundary layer for longer distances, thus enhancing cooling on a turbine leading edge model. The experiment utilized a semi-cylindrical leading edge followed by an after body with straight surfaces. A foam leading edge drilled with cooling holes allowed for a determination of adiabatic film effectiveness using an Infrared Thermography (IR) technique to measure surface temperature distributions. Two test models were utilized, one with a row of seven dimples placed upstream from the cooling-hole, while the other model had a row of seven downstream. Five blowing ratios were tested: 0.5, 0.75, 1.0, 1.25, and 1.5. It was observed that the dimples introduced disturbances in the boundary layer that encouraged vertical and lateral diffusion of the cooling film that caused reattachment of coolant jet liftoff. Dimples placed upstream of the cooling hole improved spanwise averaged adiabatic film cooling effectiveness by up to 60% for far downstream locations. Dimples placed downstream of the cooling hole enhanced up to 30% for far downstream locations.
Product Identifiers
Publisher
Biblioscholar
ISBN-13
9781288319107
eBay Product ID (ePID)
148684307
Product Key Features
Author
Isaac Roland
Publication Name
An Experimental Investigation of the Effect of Dimples on Turbine Adiabatic Film Cooling
Format
Paperback
Language
English
Subject
Education
Publication Year
2012
Type
Textbook
Number of Pages
102 Pages
Dimensions
Item Height
246mm
Item Width
189mm
Item Weight
195g
Additional Product Features
Title_Author
Isaac Roland
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