叶型接受孔对高位预旋供气系统流动温降影响的实验研究

Translated title of the contribution: Experimental Study on the Influence of Vane-Shaped Receiver Holes on Flow and Temperature Drop of a High-Radius Pre-Swirl Air Supply System

Wenbin Gong, Gaowen Liu, Fei Wang, Pengfei Li, Aqiang Lin, Zhiwu Wang

Research output: Contribution to journalArticlepeer-review

10 Scopus citations

Abstract

For a high-radius pre-swirl system with a radius difference between nozzle and air supply hole, a vane-shaped receiver hole with axial angle was designed. The pressure, temperature and mass flow rate of some critical sections were measured on the stator and rotor, and compared with those of the pre-swirl system using runway-shaped receiver holes. Results show that the system pressure ratio gradually increases and the system temperature ratio decreases as the mass flow ratio increases. While with the rotating Mach number increasing under the condition of large mass flow ratio, the system pressure ratio increases slightly and the system temperature ratio decreases. Compared with the pre-swirl air supply system using runway-shaped receiver holes, the flow resistance of the rotor components is significantly reduced for the pre-swirl air supply system with vane-shaped receiver holes. Under experimental conditions, the specific work consumption is reduced by 23.9%, the system temperature drop efficiency increases by 13.7%, and the system temperature drop and system temperature drop efficiency reach 28.1 K and 0.58, respectively. The design idea of vane-shaped receiver hole may provide the basis to improve the system performance for a high-radius pre-swirl system with a radius difference between nozzle and air supply hole.

Translated title of the contributionExperimental Study on the Influence of Vane-Shaped Receiver Holes on Flow and Temperature Drop of a High-Radius Pre-Swirl Air Supply System
Original languageChinese (Traditional)
Pages (from-to)97-105
Number of pages9
JournalHsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University
Volume55
Issue number7
DOIs
StatePublished - 10 Jul 2021

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