| 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 | 198 | 2020 |
| Multi-physics coupling in thermoacoustic devices: A review G Chen, L Tang, B Mace, Z Yu Renewable and Sustainable Energy Reviews 146, 111170, 2021 | 101 | 2021 |
| Modelling and analysis of a thermoacoustic-piezoelectric energy harvester G Chen, L Tang, BR Mace Applied Thermal Engineering 150, 532-544, 2019 | 68 | 2019 |
| Numerical investigation of synthetic jets driven by thermoacoustic standing waves G Chen, G Krishan, Y Yang, L Tang, B Mace International Journal of Heat and Mass Transfer 146, 118859, 2020 | 41 | 2020 |
| Theoretical and experimental investigation of the dynamic behaviour of a standing-wave thermoacoustic engine with various boundary conditions G Chen, L Tang, BR Mace International Journal of Heat and Mass Transfer 123, 367-381, 2018 | 40 | 2018 |
| Large eddy simulation of thermally induced oscillatory flow in a thermoacoustic engine G Chen, Y Wang, L Tang, K Wang, Z Yu Applied Energy 276, 115458, 2020 | 37 | 2020 |
| Bistability and triggering in a thermoacoustic engine: A numerical study G Chen, L Tang, BR Mace International Journal of Heat and Mass Transfer 157, 119951, 2020 | 37 | 2020 |
| An electret‐based thermoacoustic‐electrostatic power generator G Chen, L Tang, Z Yang, K Tao, Z Yu International Journal of Energy Research 44 (3), 2298-2305, 2020 | 33 | 2020 |
| Mode transition in a standing-wave thermoacoustic engine: A numerical study G Chen, L Tang, Z Yu, B Mace Journal of Sound and Vibration 504, 116119, 2021 | 27 | 2021 |
| Underlying physics of limit-cycle, beating and quasi-periodic oscillations in thermoacoustic devices G Chen, L Tang, Z Yu Journal of Physics D: Applied Physics 53 (21), 215502, 2020 | 25 | 2020 |
| Numerical study of a heat-driven thermoacoustic refrigerator based on a time-domain lumped acoustic–electrical analogy model L Xiao, J Xu, K Luo, G Chen, E Luo Energy Conversion and Management 268, 115982, 2022 | 18 | 2022 |
| Development of a small-scale piezoelectric-driven thermoacoustic cooler G Chen, J Xu Applied Thermal Engineering 213, 118667, 2022 | 16 | 2022 |
| Study on a direct-coupling thermoacoustic refrigerator using time-domain acoustic-electrical analogy method L Xiao, K Luo, J Chi, G Chen, Z Wu, E Luo, J Xu Applied Energy 339, 120972, 2023 | 14 | 2023 |
| Time-domain acoustic-electrical analogy investigation on a high-power traveling-wave thermoacoustic electric generator L Xiao, K Luo, D Zhao, G Chen, T Bi, J Xu, E Luo Energy 263, 126088, 2023 | 14 | 2023 |
| Acoustic characteristics of looped-tube thermoacoustic refrigerators with external and in-built acoustic drivers: A comparative study G Chen, J Xu The Journal of the Acoustical Society of America 150 (6), 4406-4416, 2021 | 11 | 2021 |
| Modeling and analysis of a dual-acoustic-driver thermoacoustic heat pump G Chen, L Tang, Z Yu Thermal Science and Engineering Progress 30, 101270, 2022 | 9 | 2022 |
| Mutual synchronization of self-excited acoustic oscillations in coupled thermoacoustic oscillators G Chen, Z Li, L Tang, Z Yu Journal of Physics D: Applied Physics 54 (48), 485504, 2021 | 9 | 2021 |
| Linear and nonlinear modeling of self-excited acoustic oscillations in a T-shaped thermoacoustic engine G Chen, H Hao, A Deng AIP Advances 11 (8), 085120, 2021 | 9 | 2021 |
| A thermoacoustic cooler with a bypass expansion for distributed-temperature heat loads Y Hu, X Wang, Z Wu, L Zhang, G Chen, J Xu, E Luo Applied Physics Letters 121 (20), 203905, 2022 | 6 | 2022 |
| Optimal cross-sectional area ratio between porous material and resonance tube for the onset of self-excited oscillations in standing-wave thermoacoustic engines G Chen, Z Li, X Li, J Xu, W Sun, L Tang, Z Yu Thermal Science and Engineering Progress, 101856, 2023 | 5 | 2023 |
Lihua TANGAssociate Professor, The University of Auckland在 auckland.ac.nz 的电子邮件经过验证
