1) suction temperature
吸气温度
1.
Following differences from conventional vapor compression refrigeration cycle was found: there is an optimal discharge pressure at which COP reaches maximum;the optimum pressure is sensitive to the outlet temperature of cooler,as the evaporating temperature decrease,special refrigerating output firstly increases and finally decreases;COP takes oscillation as suction temperature increase and the.
分析了带膨胀机的二氧化碳跨临界循环变工况特性,发现它与传统的蒸汽压缩式制冷循环不同的特点:循环存在一个最佳排气压力使COP最大,且最佳排气压力对冷却器出口温度的变化比较敏感;随蒸发温度的下降,单位质量制冷量先增大后减小;COP随着吸气温度的增加呈现振荡变化,且振荡变化的总体趋势是降低,带膨胀机吸气过热为无效过热的系统安装回热器有助于COP的提高。
2.
The application of fuzzy adaptive PID solves the unstable problem of suction temperature and suction pressure which is caused by intercoupling and the difficult problem of adjusting PID parameter for different testing conditions is also solved.
6~35kW制冷量全自动压缩冷凝机组性能测试系统中,通过优化量热器和管路设计并采用模糊自适应PID控制代替目前常用的PID控制,解决了系统测试冷量范围大P、I、D参数整定困难以及被控参数互相耦合导致吸气温度和吸气压力无法同时达到稳定的问题,实现了对制冷系统中吸气温度及吸气压力的精确控制,使参数控制精度满足标准JB/T 9056-1999对压缩冷凝机组性能测试的要求,并给出了该系统模糊自适应PID控制的基本设计过程。
2) inlet temperature
吸气温度
1.
The performance of the inlet temperature are analyzed,the cascade control technology are adopted by regarding the pressure of the second refrigerator as the vice adjustment parameter.
分析了制冷压缩机吸气温度回路的特性 ,采用串级技术以量热器内第二制冷剂压力为副调参数组成串级系统 ,削弱了过程参数间的耦合影响 ,有效克服了二次干扰 ,实现了制冷压缩机吸气温度的快速稳定的控
3) suction temperature
吸气温度,抽气温度
4) thermobarometer
[英][,θə:məubə'rɔmitə] [美][,θɝmobə'rɑmətɚ]
温度气压表,虹吸气压表
5) suction thermometer
吸气式温度计,抽气式温度计
6) siphonage temperature
虹吸温度
补充资料:铂电阻温度表(见电阻温度表)
铂电阻温度表(见电阻温度表)
表。bod旧nZu wendubiao铂电阻温度表见电阻温
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条