| 1. | Structure improvement of cryosorption bde for coll
低温真空吸附床结构的改进 |
| 2. | Activated carbon adsorption bed
活性炭吸附床 |
| 3. | Analysis and enhancement of the heat and mass transfer process in the adsorber of the solid adsorption refrigeration system
固体吸附式制冷系统中吸附床内的传热传质过程分析和强化 |
| 4. | Effect of adsorption bed inner characteristic on solid adsorption refrigeration system with rotating wheel driven by solar energy
吸附床内部特性对固体吸附式转轮太阳能制冷系统的影响 |
| 5. | Comparing the temperature of adsorber between the numerical and experimental results , the modeling of the system is reasonable
把吸附床内温度的实验结果和数值结果进行了比较,验证了所建立模型的正确性。 |
| 6. | The performance and basic parameters of several adsorbent beds driven by different diesel exhaust heat are experimentally obtained
吸附工质对采用氯化钙一氨。对不同吸附床在不同热源条件下的基本性能参数进行了测试。 |
| 7. | Two kinds of experiments have been performed : intermittent cycle that adsorption beds are cooled by nature convection and continuous cycle that adsorption bed is cooled by water flow
一是吸附床自然冷却下的间歇式制冷;二是吸附床通水冷却下的多次循环制冷。 |
| 8. | 1 . the progress of researches on adsorption refrigeration is presented . especially the studies on working pairs , cycles and the design of adsorbent beds
从常用的吸附工质对的性能、吸附制冷系统的循环方式和吸附床的结构等方面总结了吸附制冷技术的研究进展。 |
| 9. | Adsorbent bed is the core component of adsorption refrigeration system , its heat and mass transfer performance has a direct influence on the refrigerating capacity of the system
摘要吸附床是吸附式制冷系统的核心部件,其传热传质性能的好坏直接影响到系统的制冷量。 |
| 10. | The effects of the conductivity coefficient of adsorbent , heat transfer coefficient of water fluid and diameter of tube on the performances of the system have been analyzed
在此基础上分析了吸附床的导热系数、真空管管径、冷却水管侧的对流换热系数对系统cop的影响。 |
