Development of the optimal bluff body for wind energy harvesting using the synergetic effect of coupled vortex induced vibration and galloping phenomena W Sun, S Jo, J Seok International Journal of Mechanical Sciences 156, 435-445, 2019 | 114 | 2019 |
A novel self-tuning wind energy harvester with a slidable bluff body using vortex-induced vibration W Sun, J Seok Energy conversion and management 205, 112472, 2020 | 70 | 2020 |
Development of a novel vibro-wind galloping energy harvester with high power density incorporated with a nested bluff-body structure W Sun, F Guo, J Seok Energy conversion and management 197, 111880, 2019 | 56 | 2019 |
Novel galloping-based piezoelectric energy harvester adaptable to external wind velocity W Sun, J Seok Mechanical Systems and Signal Processing 152, 107477, 2021 | 41 | 2021 |
Magnetically coupled piezoelectric galloping-based energy harvester using a tandem configuration W Sun, H Jang, J Seok Mechanical Systems and Signal Processing 161, 107952, 2021 | 26 | 2021 |
Frequency-tunable electromagnetic energy harvester using magneto-rheological elastomer W Sun, J Jung, J Seok Journal of Intelligent Material Systems and Structures 27 (7), 959-979, 2016 | 23 | 2016 |
Design, simulation, and optimization of a frequency-tunable vibration energy harvester that uses a magnetorheological elastomer W Sun, J Jung, XY Wang, P Kim, J Seok, D Jang Advances in Mechanical Engineering 7 (1), 147421, 2015 | 17 | 2015 |
Galloping-based energy harvester considering enclosure effect S Jo, W Sun, C Son, J Seok AIP Advances 8 (9), 2018 | 15 | 2018 |
Adaptive wind energy harvester with transformable bluff body S Jeon, W Sun, H Jang, J Seok Energy Conversion and Management 238, 114159, 2021 | 12 | 2021 |
Lubrication characteristics of a textured porous sliding bearing S Lee, D Jang, XY Wang, P Kim, W Sun, J Seok Advances in Mechanical Engineering 7 (3), 1687814015573618, 2015 | 10 | 2015 |
Performance enhancement of galloping-based piezoelectric energy harvesting by exploiting 1: 1 internal resonance of magnetically coupled oscillators W Sun, C Guo, G Cheng, S He, Z Yang, J Ding Nonlinear Dynamics 108 (4), 3347-3366, 2022 | 6 | 2022 |
An enhanced galloping-based piezoelectric energy harvester with non-rotational bluff body W Sun, Y Zhang, G Cheng, S He, Z Yang, J Ding Applied Physics Letters 121 (17), 2022 | 4 | 2022 |
High-dimensional harmonic balance analysis for a turning process with state-dependent delay P Kim, W Sun, JW Seok Advanced Materials Research 655, 515-520, 2013 | 3 | 2013 |
The Visualization Analysis of Second Language Acquisition's Research Evolution Y Zhang, W Sun 2nd International Conference on Contemporary Education, Social Sciences and …, 2017 | 2 | 2017 |
A novel elastic strip suspension-based bi-directional electromagnetic wind energy harvester designed specifically for wind energy factories B Su, Y Wang, J Li, T Guo, G Cheng, W Sun Mechanical Systems and Signal Processing 208, 111059, 2024 | 1 | 2024 |
Performance investigation of a crossing angle adjustable galloping-based energy harvester S He, Q Zhang, Z Yang, W Sun International Journal of Mechanical Sciences 233, 107660, 2022 | 1 | 2022 |
Enhancing output performance of galloping-based energy harvesting using asymmetric bluff body Y Zhang, G Cheng, J Seok, J Ding, W Sun Ocean Engineering 294, 116793, 2024 | | 2024 |
A Comprehensive Review of Advancements and Challenges from Solid–Solid to Liquid–Solid Triboelectric Nanogenerators G Cheng, T Zhang, X Fu, J Hua, W Dai, J Cao, W Sun, J Ding Advanced Materials Technologies, 2301588, 2024 | | 2024 |
Performance Enhancing of Galloping-based Piezoelectric Energy Harvesting by Exploiting 1: 1 Internal Resonance of Magnetically Coupled Oscillators W Sun, C Guo, G Cheng, S He, J Ding | | 2021 |
Mathematical modeling of a galloping-based piezoelectric wind energy harvesting system using a slidable bluff body W Sun, J Seok 대한기계학회 춘추학술대회, 1528-1528, 2020 | | 2020 |