采用改进型的循环性能对比实验评价研究方法,在水-水蒸汽压缩式热泵实验台上,对理论循环性能优良、样品可得的混合工质M3、M4和纯质HFC245fa,在冷凝温度90~95℃、蒸发温度40~65℃的工况范围内进行了循环性能对比实验研究.研究结果表明,与在冷凝温度90~100℃工况范围内实验性能较优的纯质HFC245fa相比,M3和M4的制热量和COP均明显高于HFC245fa,排温比HFC245fa高10℃左右,综合性能优于HFC245fa;两种混合工质中,M3的环境特性和循环性能最优.
The performances of zeotropic mixtures of M3 and M4 and pure fluid HFC245fa were investigated experimentally at condensing temperatures of 90℃and 95℃,with various temperature lifts from 30 to 50℃.The measurements were carried out with a real-sized water-to-water vapor compression heat pump employing the improved approach for comparative evaluation on experimental performances of working fluids.Results show that M3 and M4 offer higher heating capacities and higher COPs,but 10℃ higher discharge temperatures than HFC245fa ever regarded as a suitable working fluid for the condensing temperature range of 90℃ to 100℃.Compared with M4,M3 presents an excellent environmentally friendly cycle performance.
参考文献
| [1] | Devotta S;Rao Pendyala V .Thermodynaxnic Screening of some HFCs and HFEs for High-Temperature Heat Pumps as Alternative to CFC114[J].International Journal of Re-frigeration,1994,17(05):338-342. |
| [2] | Goktun;Selahattin .Selection of Working Fluids for High-Temperature Heat Pumps[J].Energy,1995,20(07):623-625. |
| [3] | Bouma J.热泵技术的国际发展趋势[J].制冷技术,1998(03):19-21. |
| [4] | Mortal R.Heat Pump Technology and Working Fluids[A].Holland,1995:1334-1341. |
| [5] | Liu Nan-xi;Lin Shi .Moderately High Temperature Water Source Heat-Pumps Using a Near-Azeotropic Refrigerant Mixture[J].Applied Energy,2005,80:435-447. |
| [6] | Li TX;GUO KH .High-Temperature Hot-Warer Heat-Pump with Non-Azeotropic Refrigerant Mixture HCFC22/HCFC141b[J].Energy Conversion and Management,2002,43(15):2033-2040. |
| [7] | 马利敏 .中高温热泵工质的理论与实验研究[D].天津大学,2006. |
| [8] | 王继霄 .中高温热泵工质及系统优化方法的研究[D].天津大学,2007. |
| [9] | 王怀信,马利敏,王继霄.工质循环性能对比实验评价方法的改进探讨[C].中国工程热物理学会工程热力学与能源利用学术会议论文集(下册),2006:822-829. |
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