Particulate deposition experiments were performed in a turbine accelerated deposition facility to examine the nature of flyash deposits near film cooling holes. Deposition on both bare metal and thermal barrier coating (TBC) coupons was studied, with hole spacing (s/d) of 2.25, 3.375, and 4.5. Sub-bituminous coal ash particles (mass mean diameter of ) were accelerated to a combustor exit flow Mach number of 0.25 and heated to before impinging on a target coupon. The particle loading in the 1 h tests was 310 ppmw. Blowing ratios were varied in these experiments from 0 to 4.0 with the density ratio varied approximately from 1.5 to 2.1. Particle surface temperature maps were measured using two-color pyrometry based on the red/gree/blue (RGB) signals from a camera. For similar hole spacing and blowing ratio, the capture efficiency measured for the TBC surface was much higher than for the bare metal coupon due to the increase of surface temperature. Deposits on the TBC coupon were observed to be more tenacious (i.e., hard to remove) than deposits on bare metal coupons. The capture efficiency was shown to be a function of both the hole spacing and the blowing ratio (and hence surface temperature). Temperature seemed to be the dominant factor affecting deposition propensity. The average spanwise temperature downstream of the holes for close hole spacing was only slightly lower than for the large hole spacing. Roughness parameters Ra and Rt decreased monotonically with increased blowing ratio for both hole spacing analyzed. The roughness for was lower than that for , especially at high blowing ratio. It is thought that these data will prove useful for designers of turbines using synfuels.
Effect of Hole Spacing on Deposition of Fine Coal Flyash Near Film Cooling Holes
Ai, W., Murray, N., Fletcher, T. H., Harding, S., and Bons, J. P. (July 25, 2011). "Effect of Hole Spacing on Deposition of Fine Coal Flyash Near Film Cooling Holes." ASME. J. Turbomach. July 2012; 134(4): 041021. https://doi.org/10.1115/1.4003717
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