1) absorption refrigeration cycle
吸收式制冷循环
1.
The contrast between the water-lithium bromide-lithium nitrate and the water-lithium bromide absorption refrigeration cycle;
水—溴化锂—硝酸锂与水—溴化锂吸收式制冷循环的比较
2.
Thermodynamic analysis of ammonia-water absorption refrigeration cycle;
氨水吸收式制冷循环的热力学分析
3.
Studied was the automatic control of energy regulation in a novel lithium-bromide/water absorption refrigeration cycle with energy storage units.
研究新型混合吸收式制冷循环的能量调节的自动控制问题。
4) ammonia absorption refrigeration cycle
氨吸收制冷循环
1.
A new indirect air cooling system based on ammonia absorption refrigeration cycle(next be abbreviated to new system) in power plant was presented in this paper.
通过改进,新型系统在环境高温时段,利用氨吸收制冷循环的设备代替了复合空冷系统的压缩机,降低了能耗;在环境低温时段,增设了氨气过热器及氨气轮机产能发电,充分利用了环境低温资源。
5) DAR cycle
扩散吸收制冷循环
6) combined absorption/compression refrigeration cycle
压缩/吸收联合制冷循环
补充资料:致冷循环和制冷循环
分子式:
CAS号:
性质:又称致冷循环和制冷循环。冷冻剂在冷冻机中状态变化所遵循的循环。最常见的是压缩式冷冻循环。冷冻剂在低温下吸取热量而蒸发,然后在压缩机内被压缩至高温高压,再经过冷凝器而放出热量,最后经节流膨胀或绝热膨胀至低温状态。通过这样循环,可以不断从低温物体中吸取热量,达到冷冻的目的。
CAS号:
性质:又称致冷循环和制冷循环。冷冻剂在冷冻机中状态变化所遵循的循环。最常见的是压缩式冷冻循环。冷冻剂在低温下吸取热量而蒸发,然后在压缩机内被压缩至高温高压,再经过冷凝器而放出热量,最后经节流膨胀或绝热膨胀至低温状态。通过这样循环,可以不断从低温物体中吸取热量,达到冷冻的目的。
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