一、期刊论文

1. Xiong T, Chen Q*, Xu S J, et al. A new defrosting model for microchannel heat exchanger heat pump system considering the effects of drainage and water retention[J]. Energy, 2024, 289, 129968.

2. Xiong T, Liu G Q, Huang S J, et al. Two-phase flow distribution in parallel flow microchannel heat exchangers: A comprehensive review[J]. Applied Thermal  Engineering, 2022, 201, 117820.

3. Xiong T, Ying Y Z, Hang B L, et al. Comparison of energy supplies and consumptions in heat pump systems using finned tube and microchannel heat exchangers             during defrosting[J].International Journal of Refrigeration, 2021, 132(12),222-232.

4. Xiong T, Liu G Q, Gao Q, et al.Thermal-hydraulic and drainage performance of microchannel heat exchangers for  refrigeration and heat pump systems under frosting,      defrosting, and wet conditions: A comprehensive review[J]. Journal of Building Engineering, 2023,64(1) , 105654.

5. Xiong T, Liu G Q, Wang S Y, et al.An investigation on the efficient reverse cycle defrosting strategy for microchannel heat  exchanger heat pump system[J]. Journal of Building Engineering, 2023, 71, 106537.

6. Xiong T, Liu G Q, Yan G. Performance improvement of microchannel heat exchangers with modified louver fins under frosting conditions[J]. Applied Science, 2023, 13, 6378.

7. Xiong T, Zhao T Y, Liu G Q, et al. Frosting characteristics of microchannel heat exchangers: Parametric study and correlation development[J]. Journal of Building Engineering, 2024, 90, 109521.

8. Xiong T, Hu L X, Liu G Q,Yan G. Transient refrigerant distribution in a microchannel heat exchanger heat pump system under different reverse cycle defrosting               strategies[J]. Case Studies in Thermal Engineering, 2024, 61 ,105069.