冷库用间接制冷系统分析
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摘要
总结间接制冷系统的原理及特点、应用现状、挑战和机遇。从间接制冷系统和载冷剂的角度分析了间接制冷系统在实际应用中的问题。载冷剂的发展很大程度地影响间接制冷系统的应用和推广。冷库用间接制冷系统和氨直接制冷系统的技术经济性分析需要根据实际情况并结合载冷剂的选择综合考虑。
The principles, characteristics, application status, challenges and opportunities of indirect refrigeration systems are described in this paper. Some problems in the practical application of indirect refrigeration systems are discussed from the perspective of indirect refrigeration systems and secondary refrigerants. The development of secondary refrigerants will greatly affect the application and promotion of indirect refrigeration systems. The technical and economic analysis of the indirect refrigeration system and the ammonia direct refrigeration system for cold storage need to be considered in consideration of the actual situation and the choice of secondary refrigerants.
The principles, characteristics, application status, challenges and opportunities of indirect refrigeration systems are described in this paper. Some problems in the practical application of indirect refrigeration systems are discussed from the perspective of indirect refrigeration systems and secondary refrigerants. The development of secondary refrigerants will greatly affect the application and promotion of indirect refrigeration systems. The technical and economic analysis of the indirect refrigeration system and the ammonia direct refrigeration system for cold storage need to be considered in consideration of the actual situation and the choice of secondary refrigerants.
引文
[1]马进,尹从绪.国内安监与环保政策下冷冻冷藏行业制冷系统的技术选[J].冷藏技术,2018(02):8-12.
[2]Heath E A.Amendment to the Montreal Protocol on Substances that Deplete the Ozone Layer(Kigali Amendment)[J].International Legal Materials,2017,56(01):193-205.
[3]Polonara F,Kuijpers L,Peixoto R.Potential impacts of the Montreal Protocol Kigali Amendment to the choice of refrigerant alternatives[J].International Journal of Heat and Technology,2017,35(Special Issue1):S1-S8.
[4]崔奇,孙志利,李紫薇,等.基加利修正案背景下低GWP制冷剂应用的再分析[J].冷藏技术,2017(04):7-18.
[5]马一太,王伟.制冷剂的替代与延续技术[J].制冷学报,2010(05):11-17.
[6]郭康宁,孟新鹤,陆红生.利用间接制冷来提高国内大中型冷库安全的探讨[J].冷藏技术,2015(04):24-29.
[7]刘坤,张保军,岳磊,等.综合气候环境试验室载冷剂方案选择研究[J].装备环境工程,2016(05):105-110.
[8]张楠楠,宋喆.间接制冷技术在冷库中的应用[J].制冷,2018(02):85-90.
[9]宋桂梅,张朝昌.CO2在商业冷冻系统中的应用[J].制冷空调与电力机械,2010(05):81-83.
[10]田雅芬,赵兆瑞,邢子文,等.CO2复叠制冷系统与载冷剂制冷系统适用范围研究[J].制冷学报,2016(02):22-29.
[11]阚杰,郝亮,李涛,等.间接制冷系统中除霜、能耗及温室效应的比较[J].制冷与空调,2005(03):53-56.
[12]曹兴中.各种载冷剂的技术经济性比较[J].低温与特气,2013(03):9-12.
[13]吴敏.制冷设备中载冷剂的选择分析[J].洁净与空调技术,2013(03):98-100.
[2]Heath E A.Amendment to the Montreal Protocol on Substances that Deplete the Ozone Layer(Kigali Amendment)[J].International Legal Materials,2017,56(01):193-205.
[3]Polonara F,Kuijpers L,Peixoto R.Potential impacts of the Montreal Protocol Kigali Amendment to the choice of refrigerant alternatives[J].International Journal of Heat and Technology,2017,35(Special Issue1):S1-S8.
[4]崔奇,孙志利,李紫薇,等.基加利修正案背景下低GWP制冷剂应用的再分析[J].冷藏技术,2017(04):7-18.
[5]马一太,王伟.制冷剂的替代与延续技术[J].制冷学报,2010(05):11-17.
[6]郭康宁,孟新鹤,陆红生.利用间接制冷来提高国内大中型冷库安全的探讨[J].冷藏技术,2015(04):24-29.
[7]刘坤,张保军,岳磊,等.综合气候环境试验室载冷剂方案选择研究[J].装备环境工程,2016(05):105-110.
[8]张楠楠,宋喆.间接制冷技术在冷库中的应用[J].制冷,2018(02):85-90.
[9]宋桂梅,张朝昌.CO2在商业冷冻系统中的应用[J].制冷空调与电力机械,2010(05):81-83.
[10]田雅芬,赵兆瑞,邢子文,等.CO2复叠制冷系统与载冷剂制冷系统适用范围研究[J].制冷学报,2016(02):22-29.
[11]阚杰,郝亮,李涛,等.间接制冷系统中除霜、能耗及温室效应的比较[J].制冷与空调,2005(03):53-56.
[12]曹兴中.各种载冷剂的技术经济性比较[J].低温与特气,2013(03):9-12.
[13]吴敏.制冷设备中载冷剂的选择分析[J].洁净与空调技术,2013(03):98-100.