一作和通讯期刊论文(First-author or Correspondent-author Journal Articles):
v Year 2025
24. Tao S, Liu L, Li Z, Tang L, Yu Z, Chen G*. Experimental Investigations on the Interplay between a thermoacoustic oscillator and an external acoustic driver with different waveforms. Applied Acoustics. 2025;235:110678. (Q1, IF 3.4)
23. Wang K, Tao S, Li Z, Li X, Tang L, Chen G*. Investigation on the hysteresis behavior of a quarter-wavelength standing-wave thermoacoustic engine. International Journal of Mechanical Sciences. 2025:110084. (Q1, IF 7.1)
22. Chen G, Wang K, Tao S, Gao L, Li Z, Xu J, Tang L. Experimental study on the cooling performances of thermoacoustic heat exchangers. International Journal of Heat and Mass Transfer. 2025;241:126759. (Q1, IF 5)
21. Sun W, Chen G*, Tang L, Aw KC. Mode switching between electric-driven thermoacoustic refrigerator and heat pump. Energy. 2025;317:134607. (Q1, IF 9)
v Year 2024
20. Sun W, Chen G*, Tang L, Aw KC. Numerical study on acoustic matching between driver and resonator of loudspeaker-driven thermoacoustic refrigerator. International Journal of Green Energy. 2024:1-15. (Q2, IF 3.1)
19. Chen G, Tao S, Wang K, Tang L, Li Z, Xu J, Yu Z. Full-scale numerical simulations of standing-wave thermoacoustic engines with circular-pore and pin-array stacks. International Journal of Heat and Mass Transfer. 2024. (Q1, IF 5)
18. Tao S, Li Z, Li X, Xu J, Luo E, Chen G*. On the nonlinear dynamic characteristics of forced acoustic oscillations in a heat-driven thermoacoustic engine. Nonlinear Dynamics. 2024. (Q1, IF 5.2)
v Year 2023
17. Chen G, Tao S, Liang R, Li Z, Sun W, Xu J, Yu Z. Development of a sunlight-driven thermoacoustic engine for solar energy harvesting. Applied Thermal Engineering. 2024; 238:122047. (Q1, IF 6.1)
16. Chen G, Li Z, Sun W, Tang L, Yu Z. Optimal cross-sectional area ratio between porous material and resonance tube for the onset of self-excited oscillations in standing-wave thermoacoustic engines. Thermal Science and Engineering Progress. 2023;41:101856. (Q1, IF 5.1)
v Year 2022
15. Chen G, Xu J. Development of a small-scale piezoelectric-driven thermoacoustic cooler. Applied Thermal Engineering. 2022:118667. (Q1, IF 6.1)
14. Chen G, Tang L, Yu Z. Modeling and analysis of a dual-acoustic-driver thermoacoustic heat pump. Thermal Science and Engineering Progress. 2022:101270. (Q1, IF 5.1)
13. Chen G, Xu J. Active control of heat transport inside the porous material of a looped-tube dual-acoustic-driver thermoacoustic refrigerator. Cryogenics. 2022;125:103516. (Q3, IF 1.8)
v Year 2021
12. Chen G, Tang L, Mace B, Yu Z. Multi-physics coupling in thermoacoustic devices: A review. Renewable and Sustainable Energy Reviews. 2021;146:111170. (Q1, IF 16.1)
11. Chen G, Xu J. Acoustic characteristics of looped-tube thermoacoustic refrigerators with external and in-built acoustic drivers: A comparative study. Journal of the Acoustical Society of America. 2021;150:4406-16. (Q1, IF 2.1)
10. Chen G, Tang L, Yu Z, Mace B. Mode transition in a standing-wave thermoacoustic engine: A numerical study. Journal of Sound and Vibration. 2021:116119. (Q1, IF 4.3)
9. Chen G, Li Z, Tang L, Yu Z. Mutual synchronization of self-excited acoustic oscillations in coupled thermoacoustic oscillators. Journal of Physics D: Applied Physics. 2021;54:485504. (Q2, IF 3.1)
8. Chen G, Hao H, Deng A. Linear and nonlinear modeling of self-excited acoustic oscillations in a T-shaped thermoacoustic engine. AIP Advances. 2021;11:085120. (Q4, IF 1.4)
v Year 2020
7. Chen G, Tang L, Mace BR. Bistability and triggering in a thermoacoustic engine: A numerical study. International Journal of Heat and Mass Transfer. 2020;157:119951. (Q1, IF 5)
6. Chen G, Wang Y, Tang L, Wang K, Yu Z. Large eddy simulation of thermally induced oscillatory flow in a thermoacoustic engine. Applied Energy. 2020;276:115458. (Q1, IF 10.1)
5. Chen G, Tang L, Yu Z. Underlying physics of limit-cycle, beating and quasi-periodic oscillations in thermoacoustic devices. Journal of Physics D: Applied Physics. 2020;53:215502. (Q2, IF 3.1)
4. Chen G, Tang L, Yang Z, Tao K, Yu Z. An electret‐based thermoacoustic‐electrostatic power generator. International Journal of Energy Research. 2020;44:2298-305. (Q1, IF 4.3)
3. Chen G, Krishan G, Yang Y, Tang L, Mace B. Numerical investigation of synthetic jets driven by thermoacoustic standing waves. International Journal of Heat and Mass Transfer. 2020;146:118859. (Q1, IF 5)
v Year 2019
2. Chen G, Tang L, Mace BR. Modelling and analysis of a thermoacoustic-piezoelectric energy harvester. Applied Thermal Engineering. 2019;150:532-44. (Q1, IF 6.1)
v Year 2018
1. Chen G, Tang L, Mace BR. Theoretical and experimental investigation of the dynamic behaviour of a standing-wave thermoacoustic engine with various boundary conditions. International Journal of Heat and Mass Transfer. 2018;123:367-81. (Q1, IF 5)
会议论文(Conference Papers):
3. Wang K, Tang L, Xu J, Yu Z, Chen G. Study on the Hysteresis Characteristics of a Standing-Wave Thermoacoustic Engine. Singapore: Springer Nature Singapore; 2025. p. 191-9.
2. Sun W, Chen G, Tang L, Aw KC. Theoretical study on the performance of a standing-wave thermoacoustic refrigerator under various boundary conditions. International Green Energy Conference: Springer; 2023. p. 53-64.
1. Chen G, Wang Y, Tang L, Wang K, Mace B, Large eddy simulation of self-excited acoustic oscillations in a thermoacoustic engine. 11th International Conference on Applied Energy 2019, Aug 12-15, 2019, Västerås, Sweden.