多联式空调系统制热工况动态仿真建模
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摘要
多联式空调系统具有良好的容量调节能力,可以同时满足多个房间的温度控制需求。针对其制热工况的动态特性进行仿真建模,在采用移动边界法蒸发器和冷凝器动态仿真模型的基础上,建立了整个多联式空调系统制热工况的状态空间法模型,并采用变步长的方法以提高模型的稳定性和速度。与1套具有4台室内机和1台室外机的多联式系统的试验数据进行对比,结果表明:该动态仿真模型能够准确预测在压缩机频率调节过程中系统运行状态的动态相应趋势,并保持很高的计算精度。
Variable refrigerant flow(VRF) air conditioning systems can provide comfortable thermal environment for several rooms by variable capacity control. Based on the simulation of the dynamic characteristics of the heating conditions, the state space method model of the heating operation of the whole multi-connected air conditioning system was established based on the dynamic simulation model of the evaporator and condenser of the moving boundary method. A step-by-step approach is used to increase the stability and speed of the model. Compared with the experimental data of a multiconnected system with four indoor units and one outdoor unit, the results show that the dynamic simulation model can accurately predict the dynamic corresponding trend of the system operating state during the compressor frequency adjustment process, and maintain very high calculation accuracy.
Variable refrigerant flow(VRF) air conditioning systems can provide comfortable thermal environment for several rooms by variable capacity control. Based on the simulation of the dynamic characteristics of the heating conditions, the state space method model of the heating operation of the whole multi-connected air conditioning system was established based on the dynamic simulation model of the evaporator and condenser of the moving boundary method. A step-by-step approach is used to increase the stability and speed of the model. Compared with the experimental data of a multiconnected system with four indoor units and one outdoor unit, the results show that the dynamic simulation model can accurately predict the dynamic corresponding trend of the system operating state during the compressor frequency adjustment process, and maintain very high calculation accuracy.
引文
[1]石文星,彦启森,彭晓峰.热回收型多元变制冷剂流量空调系统控制策略试验研究[J].暖通空调, 2003, 33(5):46–50.
[2] AYNUR T N. Variable refrigerant flow systems:A review[J]. Energy and Buildings, 2010, 42(7):1106–1112.
[3] SHAO S Q, SHI W X, LI X T, et al. Simulation on complex refrigeration system, Part 1:model development[J]. International Journal of Refrigeration, 2008(31):490–499.
[4] SHI W X, SHAO S Q, LI X T, et al. Simulation on complex refrigeration system, Part 2:model application[J]. International Journal of Refrigeration, 2008(31):500–509.
[5] SHAO S Q, XU H B, TIAN C Q. Dynamic simulation of multi-unit air conditioners based on two-phase fluid network model[J]. Applied Thermal Engineering, 2012(40):378–388.
[6]邵双全,梁楠,田长青.多联式空调制冷系统动态仿真研究[J].制冷学报, 2011, 32(1):16–22.
[2] AYNUR T N. Variable refrigerant flow systems:A review[J]. Energy and Buildings, 2010, 42(7):1106–1112.
[3] SHAO S Q, SHI W X, LI X T, et al. Simulation on complex refrigeration system, Part 1:model development[J]. International Journal of Refrigeration, 2008(31):490–499.
[4] SHI W X, SHAO S Q, LI X T, et al. Simulation on complex refrigeration system, Part 2:model application[J]. International Journal of Refrigeration, 2008(31):500–509.
[5] SHAO S Q, XU H B, TIAN C Q. Dynamic simulation of multi-unit air conditioners based on two-phase fluid network model[J]. Applied Thermal Engineering, 2012(40):378–388.
[6]邵双全,梁楠,田长青.多联式空调制冷系统动态仿真研究[J].制冷学报, 2011, 32(1):16–22.
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