TY - GEN
T1 - Investigation of Vortex Flow Features in Compressor Flows Based on Vortex Identification Methods
AU - Zhong, Weibo
AU - Tang, Yumeng
AU - Hou, Jiexuan
AU - Liu, Yangwei
N1 - Publisher Copyright:
© The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.
PY - 2024
Y1 - 2024
N2 - Three-dimensional multiscale vortex flow in compressors is highly complex due to adverse pressure gradients. A deeper understanding of the vortex flow in compressors is significant for improving the aerodynamic design. Nonetheless, accurate identification and effective distinction of complex vortices are highly demanded in analyzing compressor flow mechanisms. The Liutex method and its corresponding decomposition method for vortex flow motions have advantages in extracting clear vortex structures. The local trace criterion (LTcri) and the LTcri-based elliptical region (LTER) indication can distinguish the tangled vortices in compressor flow by indicating the compressibility, local spiraling pattern and compactness. In the current study, vortex identifications based on Liutex and LTcri are employed to investigate the features and evolution of complex vortices in typical compressor flows, including the corner separation flow in a highly loaded compressor cascade, and the tip leakage flow in a low-speed and a transonic compressor rotor. Results show that the compressibility, spiraling pattern and compactness of vortices have close correlations with the vortex structures and flow features in both spatial and temporal perspectives, which provide some new interpretations of vortex evolution regimes in compressors.
AB - Three-dimensional multiscale vortex flow in compressors is highly complex due to adverse pressure gradients. A deeper understanding of the vortex flow in compressors is significant for improving the aerodynamic design. Nonetheless, accurate identification and effective distinction of complex vortices are highly demanded in analyzing compressor flow mechanisms. The Liutex method and its corresponding decomposition method for vortex flow motions have advantages in extracting clear vortex structures. The local trace criterion (LTcri) and the LTcri-based elliptical region (LTER) indication can distinguish the tangled vortices in compressor flow by indicating the compressibility, local spiraling pattern and compactness. In the current study, vortex identifications based on Liutex and LTcri are employed to investigate the features and evolution of complex vortices in typical compressor flows, including the corner separation flow in a highly loaded compressor cascade, and the tip leakage flow in a low-speed and a transonic compressor rotor. Results show that the compressibility, spiraling pattern and compactness of vortices have close correlations with the vortex structures and flow features in both spatial and temporal perspectives, which provide some new interpretations of vortex evolution regimes in compressors.
KW - Compressor
KW - Liutex
KW - Local Trace Criterion
KW - Vortex Identification
UR - https://www.scopus.com/pages/publications/85210255674
U2 - 10.1007/978-981-97-8608-4_12
DO - 10.1007/978-981-97-8608-4_12
M3 - 会议稿件
AN - SCOPUS:85210255674
SN - 9789819786077
T3 - Springer Proceedings in Physics
SP - 157
EP - 172
BT - Proceedings of the Vortex Workshop - VW2023
A2 - Wang, Yiqian
A2 - Liu, Chaoqun
A2 - Li, Yan
PB - Springer Science and Business Media Deutschland GmbH
T2 - Vortex Workshop on New Progress in Vortex Identification and Applications, VW 2023
Y2 - 11 December 2023 through 13 December 2023
ER -