Bo Song scite author profile

Bo Song

5Publications

26Citation Statements Received

0Citation Statements Given

How they've been cited

112

How they cite others

Affiliations

Liaocheng University, Beihang University, North West Agriculture and Forestry University

Publications

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Investigation of Film Cooling Effectiveness of Full-Coverage Inclined Multihole Walls With Different Hole Arrangements

Lin

Song

et al. 2003

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An experimental and numerical investigation of adiabatic film cooling effectiveness was conducted on four full-coverage inclined multihole walls with different hole arrangements. The hole geometrical patterns and the test conditions were chosen to be representative of film cooling designs for modern aeroengine combustor liners. The four hole arrangements were grouped into two types based on lateral hole pitch ( P ) and streamwise row spacing ( S ). One type included two test plates which had the same S and P (S/P = 2) and compound angle (β = 0 deg) but different hole inclination angles ( α ) (30 and 150 deg ). The other type included two test plates which had the same S and P (but S/P = 1) and inclination angle (α = 30 deg) but different compound angles (0 deg and 50 deg). Heat-mass transfer analogy method was employed to investigate the adiabatic film cooling effectiveness of these multihole walls with typical blowing ratios for aeroengine combustors. The numerical simulation was performed to characterize the flowfield and temperature distribution, aiming to further understand the film cooling mechanisms. The experimental results indicated that blowing ratio within the range from 1 to 4 had negligible influence on adiabatic film cooling effectiveness (η) in the case of concurrent coolant injection while hole arrangement had large effect on η. But the blowing ratio within the range from 1 to 4 had large effect on the film cooling effectiveness for the counterflow film cooling scheme. The numerical results were compared with experimental data and fairly good agreement was obtained. The numerical simulation revealed the flow structure, particularly exhibiting significant influence of the interaction between mainstream flow and coolant jets on η. With validation by experimental data, film cooling numerical simulation seems quite helpful in selecting optimum multihole arrangement for modern combustor liner design.

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Measured Film Cooling Effectiveness of Three Multihole Patterns

Lin

Song

et al. 2005

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As an advanced cooling scheme to meet increasingly stringent combustor cooling requirements, multihole film cooling has received considerable attention. Experimental data of this cooling scheme are limited in the open literature in terms of different hole patterns and blowing ratios. The heat-mass transfer analogy method was employed to measure adiabatic film cooling effectiveness of three multihole patterns. Three hole patterns differed in streamwise row spacing (S), spanwise hole pitch (P), and hole inclination angle (α), with the first pattern S∕P=2 and α=30°, the second S∕P=1 and α=30°, and the third S∕P=2 and α=150°. Measurements were performed at different blow ratios (M=1-4). Streamwise coolant injection offers high cooling protection for downstream rows. Reverse coolant injection provides superior cooling protection for initial rows. The effect of blowing ratio on cooling effectiveness is small for streamwise injection but significant for reversion injection.

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Formation of intermediate phases and their influences on the microstructure of high strength near-β titanium alloy

Song

Chen

Xiao

et al. 2020

Materials Science and Engineering: A

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Cooling effectiveness of effusion walls with deflection hole angles measured by infrared imaging

Zhang

Lin

et al. 2009

Applied Thermal Engineering

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Surface normal measurement in the end effector of a drilling robot for aviation

Yuan

Wang

et al. 2014

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Bo Song

Investigation of Film Cooling Effectiveness of Full-Coverage Inclined Multihole Walls With Different Hole Arrangements

Measured Film Cooling Effectiveness of Three Multihole Patterns

Formation of intermediate phases and their influences on the microstructure of high strength near-β titanium alloy

Cooling effectiveness of effusion walls with deflection hole angles measured by infrared imaging

Surface normal measurement in the end effector of a drilling robot for aviation

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