[关键词]
[摘要]
为解决涡流管工作过程中气体易产生旋涡的问题,设计一种新型叶片整流器,将旋流转化为平行流,实现能量回收利用。搭建实验平台,通过调整装置结构及工况进行相关研究。实验结果表明:压比为2时,与无整流器涡流管相比,相同长径比下安装整流器的涡流管制冷效应(入口与冷端出口温差)提高3.5 ℃;相同制冷效应下,整流器能将长径比缩短一半;冷流率为0.5时,两端同时安装整流器时单位制冷量最大提升3.5 kJ/kg,只安装在热端时单位制冷量最大提升2.6 kJ/kg,只安装在冷端时单位制冷量最大提升0.64 kJ/kg;当压比较低时整流器叶片入口角度较小有利于提升制冷效果,当压比较高时叶片入口角度较大有利于提升制冷效果。
[Key word]
[Abstract]
In order to solve the vortex caused in gas in the working process of the vortex tube,a new type of blade rectifier was designed to convert the swirling flow into parallel flow,realize energy recovery and utilization.The relevant research was carried out by building an experimental platform and adjusting the structure and working conditions of the device.The experimental results show that comparing with the vortex tube without rectifier,the refrigeration effect (temperature difference between inlet and cold end outlet) of the rectifier vortex tube is increased by 3.5 ℃ under the same lengthdiameter ratio when the pressure ratio is 2; the rectifier can reduce the lengthdiameter ratio by half under the same refrigeration effect; when the cold flow rate is 0.5,rectifiers are installed at both ends at the same time,and the unit cooling capacity is increased by 3.5 kJ/kg, when only installed at the hot end,the unit cooling capacity can be increased by 2.6 kJ/kg at most, when only installed at the cold end,the unit cooling capacity can be increased by 0.64 kJ/kg at most; when the pressure ratio is relatively low,the smaller inlet angle of the rectifier blade is beneficial to improve the refrigeration effect; when the pressure ratio is relatively high,a larger blade inlet angle is beneficial to improve the refrigeration effect.
[中图分类号]
TB657
[基金项目]