Extensive comparison is made between the single-stage cycle and a typical auto-cascade cycle using same mixed-refrigerant.
采用分析的方法对制冷循环各部件进行了分析,同时比较了混合工质一次节流循环和内复叠循环热力性能。
As two means to get a low temperature, two-stage compression cycle and cascade cycle have their advantages of economical performance in different temperature range.
对于获取低温的两种手段—双级压缩循环和复叠循环来说,它们分别在不同的温区具有经济性优势。
In addition, further investigations about the simplicity cascade cycle, the mid-pressure double-effect cascade cycle and the basic GAX cycle with TFE-TEGDEME as working fluid have been done.
同时,对以该物质为工作介质的单纯复叠循环、中压双效复叠循环和基本GAX循环作了深入研究。
The system could carry on the single-series refrigeration cycle, double-series refrigeration cycle and cascade refrigeration cycle through the designed regulating station.
通过设计的调节站,该装置可以进行单级制冷循环、双级制冷循环以及复叠式制冷循环。
By comparing with the R13 - R22 and NH3 - NH3 cascade refrigeration cycles, the obvious advantage of the CO2-NH3 cascade refrigeration cycle, at low temperature is demonstrated.
通过与R13-R22和NH3 - NH3复叠式循环的比较,可以看出CO2 - NH3的复叠式制冷循环在低温制冷条件下有明显优势。
A sequential cycle cascade correlation system for wavelet transform (WT) of images and correlation recognition based on feature extracting by WT is presented.
提出了一种时序循环级联式的子波变换相关识别系统。
The Auto Cascade Refrigeration Cycle (ACR) requires only one compressor with the non-azeotropic refrigerant mixture (NARM), which is very popular for its particular excellence.
自行复叠制冷循环采用非共沸混合工质作为制冷剂,而且只采用一台压缩机,正是这些独特的优点使其受到了广泛的关注。
R22 is the main present refrigerants used in cascade refrigeration cycle, which are controlled materials and need to be replaced.
摘要目前复叠式制冷循环中采用的R22制冷剂属于受控物质,需要寻求新的替代制冷剂。
Some methods are introduced to rebuild the normal cold storages into super-low temperature cold storages for full use of cascade refrigeration cycle with low production costs and energy expenditure.
针对我国冷库多、贮藏量大,但超低温冷库很少这一现状,介绍了在原有冷库的基础上,利用复叠式制冷方法将原有的部分冷库加装改造成超低温冷库,从而达到降低成本和节能的目的。
Some methods are introduced to rebuild the normal cold storages into super-low temperature cold storages for full use of cascade refrigeration cycle with low production costs and energy expenditure.
针对我国冷库多、贮藏量大,但超低温冷库很少这一现状,介绍了在原有冷库的基础上,利用复叠式制冷方法将原有的部分冷库加装改造成超低温冷库,从而达到降低成本和节能的目的。
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