The present study is geared towards quantifying the effects of film cooling holes on turbine internal cooling passages. In this regard, tests are conducted in a generic stationary model, with evenly distributed rib-type perturbators at 90 deg, constituting a passage blockage ratio of H/Dh = 0.3 and pitch-to-height ratio of P/H = 10. The 1/3H diameter surface-perpendicular film cooling holes are employed at a distance of 5/3H downstream of the preceding rib. Through liquid crystal thermometry measurements, the aero-thermal effects of a change in suction ratio are contrasted for various configurations (Re = 40,000 SR = 0–6), and compared with the analogous aerodynamic literature, enabling heat transfer distributions to be associated with distinct flow structures. At increased suction ratio, the size of the separation bubble downstream of the rib is observed to diminish, triggering globally an earlier reattachment; in addition to low-momentum hot fluid extraction via film cooling suction. Hence, in the presence of active flow extraction, higher overall heat transfer characteristics are observed throughout the channel. Moreover, the findings are generalized via friction factor and Nusselt number correlations, along with an analytical 20-pitch passage model. SR ∼ 3.5 is observed to provide favorable characteristics of pitch-to-pitch uniform suction ratio, lack of hot fluid ingestion and to sustain the highest passage averaged heat transfer.
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March 2013
Research-Article
Film Cooling Extraction Effects on the Aero-Thermal Characteristics of Rib Roughened Cooling Channel Flow
Tony Arts
Tony Arts
e-mail: arts@vki.ac.be
von Karman Institute for Fluid Dynamics
,Chaussée de Waterloo, 72, B-1640
,Rhode-St-Genèse
, Belgium
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Beni Cukurel
e-mail: cukurel@vki.ac.be
Claudio Selcan
e-mail: selcan@vki.ac.be
Tony Arts
e-mail: arts@vki.ac.be
von Karman Institute for Fluid Dynamics
,Chaussée de Waterloo, 72, B-1640
,Rhode-St-Genèse
, Belgium
Contributed by the International Gas Turbine Institute (IGTI) of ASME for publication in the Journal of Turbomachinery. Manuscript received June 28, 2012; final manuscript received August 5, 2012; published online November 2, 2012. Editor: David Wisler.
J. Turbomach. Mar 2013, 135(2): 021016 (12 pages)
Published Online: November 2, 2012
Article history
Received:
June 28, 2012
Revision Received:
August 5, 2012
Citation
Cukurel, B., Selcan, C., and Arts, T. (November 2, 2012). "Film Cooling Extraction Effects on the Aero-Thermal Characteristics of Rib Roughened Cooling Channel Flow." ASME. J. Turbomach. March 2013; 135(2): 021016. https://doi.org/10.1115/1.4007501
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