近年论文成果
[1]Ma X,Du Y*, Wu Y, et al. Performance improvement of air-source autocascade high-temperature heat pumps using advanced exergy analysis[J]. Energy, 2024, 307: 132673.
[2] Ma X,Du Y*, Lei B, et al. Energy, exergy, economic, and environmental analysis of a high-temperature heat pump steam system[J]. International Journal of Refrigeration, 2024, 160:423-436.
[3] Ma X,Du Y*, Zhao T, et al. A comprehensive review of compression high-temperature heat pump steam system: Status and trend [J]. International Journal of Refrigeration, 2024, 164: 218-242.
[4]Feng X, Wu Y,Du Y*, et al. Optimization and performance improvement of ultra-low temperature cascade refrigeration system based on the isentropic efficiency curve of single-screw compressor [J]. Energy, 2024, 298: 131227.
[5]Du Y*, Lin J, Wu J, et al. Simulation and experimental study on dynamic characteristics of R290 split heat pump during start-up[J].Applied Thermal Engineering, 2023, 236: 121564.[6]Du Y, Wu J*, Lin J, et al. Defrosting dynamic behaviors of a propane air conditioner and its rotary compressor under low ambient temperature conditions[J]. International Journal of Refrigeration, 2021, 132: 11-20.
[7]Du Y, Wu J*, Wang C. Research on control method of a R290 ASHP under low-temperature heating condition[J]. International Journal of Refrigeration, 2021, 129: 60-68.
[8]Du Y, Wu J*, Wang C. Experimental study on dynamic characteristics of an R290 heat pump during defrost[J]. Energy and Buildings, 2020, 223: 110174.
[9]Du Y, Wu J*, Wang C, et al. Investigation on the influence of EEV opening on the reliability of an R290 ASHP during defrosting[J]. Energy and Buildings, 2020, 223: 110218.
[10]Du Y, Wu J*, Wang C, et al. Experimental study on electronic expansion valve failure of a R290 room air conditioner during heating-defrosting process[J]. Applied Thermal Engineering, 2019, 163: 114432.
