期刊
CASE STUDIES IN THERMAL ENGINEERING
卷 42, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.csite.2023.102715
关键词
Aero-engine cooling; Helical tube; Air-fuel heat exchanger; Tube thermal failure; Coke deposition; Secondary flow
This paper introduces a novel air-fuel heat exchanger used for cooling air technology in aero-engines. The helical tube heat exchanger has a weight of 1.1 kg and an area density of 214 m2/m3, and it can cool hot air down 260 K at an air flow rate of 0.3 kg/s with a pressure drop of less than 0.6%. Empirical correlations demonstrate good predictability of pressure drop and convective heat transfer coefficient for hot gas cross-flowing helical tube bundles. Tube failure tests indicate that the bent tube can continue to perform under extremely high tube wall temperature and the secondary flow in bent tubes can improve heat transfer performance and reduce coke deposition.
This paper presents a novel air-fuel heat exchanger used for the cooled cooling air technology in aero-engines. The helical tube heat exchanger weighing 1.1 kg with an area density of 214 m2/m3 can cool the hot air down 260 K at the air flow of 0.3 kg/s with relative airside pressure drop less than 0.6%. Empirical correlations by multiplying a constant of 1.06 and 0.837 can well predict the pressure drop and convective heat transfer coefficient respectively for hot gas cross-flowing helical tube bundles. Furthermore, in the tube failure tests to simulate the fuel control system fault and flight mode conversion, the straight tube can work continuously for more than 360 s under the extremely high tube wall temperature of over 1200 degrees C in the heat flux sudden increase test, while the bent tube could continue to glow brightly for 30 min. Coke morphology and chemical composition analysis revealed that increased thermal stress caused by gradually thicker coke layer takes a major cause in the heat flux sudden increase test. The secondary flow in bent tubes can effectively improve the convective heat transfer performance and reduce the formation of coke deposition, thereby improving the tube working life.
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