Dynamic mode decomposition of rotorcraft blade tip vortex in hovering state

Dynamic mode decomposition of rotorcraft blade tip vortex in hovering state

The flow field structure of a rotorcraft is complex; specifically, the rotor tip vortex structure has a great influence on the rotor performance. Therefore, in this paper, the evolution characteristics of rotor tip vortices and the dynamic mode decomposition (DMD) of rotor tip vortices in a rotor ho...

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Main Authors: Wenjie Kong, Hai Du, Qinlin Zhang, Qixuan Li, Xinyue Lv, Lianbin Zhou, Weiguo Zhang
Format: Article
Language:English
Published: AIP Publishing LLC 2020-03-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/1.5143942
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spelling doaj-09cf0e127a6b4cafaf95712d29091c462020-11-25T01:58:17ZengAIP Publishing LLCAIP Advances2158-32262020-03-01103035007035007-1210.1063/1.5143942Dynamic mode decomposition of rotorcraft blade tip vortex in hovering stateWenjie Kong0Hai Du1Qinlin Zhang2Qixuan Li3Xinyue Lv4Lianbin Zhou5Weiguo Zhang6School of Energy and Power Engineering, Xihua University, Chengdu 610039, ChinaSchool of Energy and Power Engineering, Xihua University, Chengdu 610039, ChinaSchool of Energy and Power Engineering, Xihua University, Chengdu 610039, ChinaSchool of Energy and Power Engineering, Xihua University, Chengdu 610039, ChinaSchool of Energy and Power Engineering, Xihua University, Chengdu 610039, ChinaSchool of Energy and Power Engineering, Xihua University, Chengdu 610039, ChinaRotor Aerodynamics Key Laboratory, China Aerodynamics Research and Development Center, Mianyang, Sichuan 621000, ChinaThe flow field structure of a rotorcraft is complex; specifically, the rotor tip vortex structure has a great influence on the rotor performance. Therefore, in this paper, the evolution characteristics of rotor tip vortices and the dynamic mode decomposition (DMD) of rotor tip vortices in a rotor hovering state are studied. Through a time-resolved particle image velocimetry experiment, a comparative study of the blade tip vortex flow field at a fixed rotation speed (1500 rpm) and a collective pitch of 6° and 9° was performed. The method of DMD is used for the reduced-order analysis of the vorticity field of the blade tip vortex in the hovering state. By this method, these important vortex structures are extracted and discussed; meanwhile, the future flow field is also reconstructed. The results of flow visualization indicate that the trajectory of the blade tip vortex is moving down the axis, while moving toward the hub in the radial direction in the hovering state. The results of DMD analysis show that during the evolution of the blade tip vortex, different modes have different contributions to the rotor as a whole. In addition, the larger the collective pitch, the larger the modal coefficient amplitude and the slower the stabilization speed.http://dx.doi.org/10.1063/1.5143942
collection DOAJ
language English
format Article
sources DOAJ
author Wenjie Kong
Hai Du
Qinlin Zhang
Qixuan Li
Xinyue Lv
Lianbin Zhou
Weiguo Zhang
spellingShingle Wenjie Kong
Hai Du
Qinlin Zhang
Qixuan Li
Xinyue Lv
Lianbin Zhou
Weiguo Zhang
Dynamic mode decomposition of rotorcraft blade tip vortex in hovering state
AIP Advances
author_facet Wenjie Kong
Hai Du
Qinlin Zhang
Qixuan Li
Xinyue Lv
Lianbin Zhou
Weiguo Zhang
author_sort Wenjie Kong
title Dynamic mode decomposition of rotorcraft blade tip vortex in hovering state
title_short Dynamic mode decomposition of rotorcraft blade tip vortex in hovering state
title_full Dynamic mode decomposition of rotorcraft blade tip vortex in hovering state
title_fullStr Dynamic mode decomposition of rotorcraft blade tip vortex in hovering state
title_full_unstemmed Dynamic mode decomposition of rotorcraft blade tip vortex in hovering state
title_sort dynamic mode decomposition of rotorcraft blade tip vortex in hovering state
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2020-03-01
description The flow field structure of a rotorcraft is complex; specifically, the rotor tip vortex structure has a great influence on the rotor performance. Therefore, in this paper, the evolution characteristics of rotor tip vortices and the dynamic mode decomposition (DMD) of rotor tip vortices in a rotor hovering state are studied. Through a time-resolved particle image velocimetry experiment, a comparative study of the blade tip vortex flow field at a fixed rotation speed (1500 rpm) and a collective pitch of 6° and 9° was performed. The method of DMD is used for the reduced-order analysis of the vorticity field of the blade tip vortex in the hovering state. By this method, these important vortex structures are extracted and discussed; meanwhile, the future flow field is also reconstructed. The results of flow visualization indicate that the trajectory of the blade tip vortex is moving down the axis, while moving toward the hub in the radial direction in the hovering state. The results of DMD analysis show that during the evolution of the blade tip vortex, different modes have different contributions to the rotor as a whole. In addition, the larger the collective pitch, the larger the modal coefficient amplitude and the slower the stabilization speed.
url http://dx.doi.org/10.1063/1.5143942
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