Piezoelectric energy harvesting from flexible delta wings

被引:4
|
作者
Alrowaijeh, Jamal S. [1 ]
Hajj, Muhammad R. [2 ]
机构
[1] Virginia Tech, Engn Mech Program, Blacksburg, VA 24061 USA
[2] Virginia Tech, Engn Mech Program, Engn, Blacksburg, VA 24061 USA
来源
THEORETICAL AND APPLIED MECHANICS LETTERS | 2018年 / 8卷 / 04期
基金
美国国家科学基金会;
关键词
Energy harvesting; Delta wing; Piezoelectric; Bending stiffness; Mass ratio;
D O I
10.1016/j.taml.2018.04.005
中图分类号
O3 [力学];
学科分类号
08 ; 0801 ;
摘要
The potential for harvesting energy from a flexible delta wing using a piezoelectric bimorph is experimentally investigated. Different configurations of the proposed harvesting system were tested in a wind tunnel over a broad range of airspeeds. In addition to evaluating the level of harvested power, an analysis is performed to extract critical aspects for the relation between speed, flexibility, geometry and the potential power that can be harvested from a clamped, cantilevered flexible delta wing at low angles of attack and low speeds. This analysis provides an insight into parameters that impact energy harvesting from flexible membranes or elements. (C) 2018 The Authors. Published by Elsevier Ltd on behalf of The Chinese Society of Theoretical and Applied Mechanics.
引用
收藏
页码:267 / 271
页数:5
相关论文
共 50 条
  • [21] A painting type of flexible piezoelectric device for ocean energy harvesting
    Mutsuda, Hidemi
    Tanaka, Yoshikazu
    Patel, Rupesh
    Doi, Yasuaki
    Moriyama, Yasuo
    Umino, Yuji
    APPLIED OCEAN RESEARCH, 2017, 68 : 182 - 193
  • [22] Fabrication of piezoelectric polymer multilayers on flexible substrates for energy harvesting
    Oh, Sharon Rosyln
    Wong, Ting Chong
    Tan, Chin Yaw
    Yao, Kui
    Tay, Francis Eng-Hock
    SMART MATERIALS AND STRUCTURES, 2014, 23 (01)
  • [23] Flexible piezoelectric nano-composite films for kinetic energy harvesting from textiles
    Almusallam, Ahmed
    Luo, Zhenhua
    Komolafe, Abiodun
    Yang, Kai
    Robinson, Andrew
    Torah, Russel
    Beeby, Steve
    NANO ENERGY, 2017, 33 : 146 - 156
  • [24] AlN-based flexible piezoelectric skin for energy harvesting from human motion
    Guido, Francesco
    Qualtieri, Antonio
    Algieri, Luciana
    Lemma, Enrico Domenico
    De Vittorio, Massimo
    Todaro, Maria Teresa
    MICROELECTRONIC ENGINEERING, 2016, 159 : 174 - 178
  • [25] Piezoelectric energy harvesting from suspension structures with piezoelectric layers
    Wang, Min
    Xia, Yiming
    Pu, Huayan
    Sun, Yi
    Ding, Jiheng
    Luo, Jun
    Xie, Shaorong
    Peng, Yan
    Zhang, Quan
    Li, Zhongjie
    Sensors (Switzerland), 2020, 20 (13): : 1 - 14
  • [26] Piezoelectric Energy Harvesting from Suspension Structures with Piezoelectric Layers
    Wang, Min
    Xia, Yiming
    Pu, Huayan
    Sun, Yi
    Ding, Jiheng
    Luo, Jun
    Xie, Shaorong
    Peng, Yan
    Zhang, Quan
    Li, Zhongjie
    SENSORS, 2020, 20 (13) : 1 - 14
  • [27] Modeling and analysis of the effect of substrate on the flexible piezoelectric films for kinetic energy harvesting from textiles
    Chakhchaoui, Nabil
    Jaouani, H.
    Ennamiri, H.
    Eddiai, A.
    Hajjaji, A.
    Meddad, M.
    Van Langenhove, Lieva
    Boughaleb, Y.
    JOURNAL OF COMPOSITE MATERIALS, 2019, 53 (24) : 3349 - 3361
  • [28] Energy harvesting using flexible piezoelectric materials from human walking motion: Theoretical analysis
    Cha, Youngsu
    JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES, 2017, 28 (20) : 3006 - 3015
  • [29] Piezoelectric energy harvesting from walking motion of a passive biped robot model with flexible legs
    Safartoobi, Masoumeh
    Dardel, Morteza
    Daniali, Hamidreza Mohammadi
    CHAOS SOLITONS & FRACTALS, 2024, 188
  • [30] ENERGY HARVESTING USING FLAPPING DYNAMICS OF PIEZOELECTRIC INVERTED FLEXIBLE FOIL
    Gurugubelli, Pardha S.
    Jaiman, Rajeev K.
    PROCEEDINGS OF THE ASME 34TH INTERNATIONAL CONFERENCE ON OCEAN, OFFSHORE AND ARCTIC ENGINEERING, 2015, VOL 9, 2015,
12345