1) Ericsson refrigeration cycle
Ericsson制冷循环
1.
The effect of the irreversibilities including thermal resistances, thermal leak and regenerative losses on the performance of a magnetic Ericsson refrigeration cycle,in which a paramagnetic salt is employed as the cyclic working substance, is investigated.
研究热阻、热漏及回热损失等不可逆因素对以顺磁盐为工质的Ericsson制冷循环性能的影响,分析和讨论循环的重要性能参数及优化工作区域,所得结论为磁制冷机的优化设计和性能评价提供参考。
2.
Based on the equation of the ideal Bose gas, the regenerative characteristics of the quantum Ericsson refrigeration cycle working with the ideal Bose gas is analyzed.
文中基于理想玻色气体的状态方程 ,分析了以理想玻色气体为工质的量子 Ericsson制冷循环中的回热特征 ,推导出其制冷循环的制冷系数表达式。
2) magnetic Ericsson refrigeration cycle
磁砀Ericsson制冷循环
3) Ericsson cycle
Ericsson循环
4) magnetic Ericsson cycle
磁Ericsson循环
6) refrigeration cycle
制冷循环
1.
Optimal performance of universal steady-flow endoreversible refrigeration cycle model including five typical cycles;
包含五种循环的普适定常流内可逆制冷循环最优性能
2.
Theoretic analysis of a refrigeration cycle with refrigerant mixture air/water;
空气/水混合工质制冷循环理论计算
3.
Further analysis of the effect on the refrigeration coefficient with the superheat of the refrigeration cycle;
制冷循环的过热对制冷系数影响的探讨
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