Daniil Yurchenko (Iourtchenko)
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The state-of-the-art review on energy harvesting from flow-induced vibrations
J Wang, L Geng, L Ding, H Zhu, D Yurchenko
Applied Energy 267, 114902, 2020
High-performance piezoelectric wind energy harvester with Y-shaped attachments
J Wang, S Zhou, Z Zhang, D Yurchenko
Energy conversion and management 181, 645-652, 2019
A double-beam piezo-magneto-elastic wind energy harvester for improving the galloping-based energy harvesting
K Yang, J Wang, D Yurchenko
Applied Physics Letters 115 (19), 2019
Rotational energy harvesting for self-powered sensing
H Fu, X Mei, D Yurchenko, S Zhou, S Theodossiades, K Nakano, ...
Joule 5 (5), 1074-1118, 2021
Hybrid wind energy scavenging by coupling vortex-induced vibrations and galloping
J Wang, S Gu, C Zhang, G Hu, G Chen, K Yang, H Li, Y Lai, G Litak, ...
Energy Conversion and Management 213, 112835, 2020
Random vibrations with impacts: a review
MF Dimentberg, DV Iourtchenko
Nonlinear Dynamics 36, 229-254, 2004
Multistability phenomenon in signal processing, energy harvesting, composite structures, and metamaterials: A review
S Fang, S Zhou, D Yurchenko, T Yang, WH Liao
Mechanical Systems and Signal Processing 166, 108419, 2022
A hybrid piezo-dielectric wind energy harvester for high-performance vortex-induced vibration energy harvesting
Z Lai, S Wang, L Zhu, G Zhang, J Wang, K Yang, D Yurchenko
Mechanical Systems and Signal Processing 150, 107212, 2021
Design, modeling and experiments of broadband tristable galloping piezoelectric energy harvester
J Wang, L Geng, S Zhou, Z Zhang, Z Lai, D Yurchenko
Acta Mechanica Sinica 36, 592-605, 2020
Harvest wind energy from a vibro-impact DEG embedded into a bluff body
ZH Lai, JL Wang, CL Zhang, GQ Zhang, D Yurchenko
Energy Conversion and Management 199, 111993, 2019
Parametric pendulum based wave energy converter
D Yurchenko, P Alevras
Mechanical Systems and Signal Processing 99, 504-515, 2018
Perspectives in flow-induced vibration energy harvesting
J Wang, D Yurchenko, G Hu, L Zhao, L Tang, Y Yang
Applied Physics Letters 119 (10), 2021
Parametric study of a novel vibro-impact energy harvesting system with dielectric elastomer
D Yurchenko, ZH Lai, G Thomson, DV Val, RV Bobryk
Applied energy 208, 456-470, 2017
Enhancement of low-speed piezoelectric wind energy harvesting by bluff body shapes: Spindle-like and butterfly-like cross-sections
J Wang, C Zhang, S Gu, K Yang, H Li, Y Lai, D Yurchenko
Aerospace Science and Technology 103, 105898, 2020
Response probability density functions of strongly non-linear systems by the path integration method
DV Iourtchenko, E Mo, A Naess
International Journal of Non-Linear Mechanics 41 (5), 693-705, 2006
Dynamics of the double-beam piezo–magneto–elastic nonlinear wind energy harvester exhibiting galloping-based vibration
J Wang, L Geng, K Yang, L Zhao, F Wang, D Yurchenko
Nonlinear Dynamics 100, 1963-1983, 2020
Numerical investigation of a response probability density function of stochastic vibroimpact systems with inelastic impacts
DV Iourtchenko, LL Song
International Journal of Non-Linear Mechanics 41 (3), 447-455, 2006
Reliability of strongly nonlinear single degree of freedom dynamic systems by the path integration method
D Iourtchenko, E Mo, A Naess
Machine learning based prediction of piezoelectric energy harvesting from wake galloping
C Zhang, G Hu, D Yurchenko, P Lin, S Gu, D Song, H Peng, J Wang
Mechanical Systems and Signal Processing 160, 107876, 2021
Advantages of nonlinear energy harvesting with dielectric elastomers
G Thomson, Z Lai, DV Val, D Yurchenko
Journal of Sound and Vibration 442, 167-182, 2019
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