| 1. | Development of ammonia - salts adsorption working pairs in chemical heat pump
化学热泵中氨盐吸附工质对的研究进展 |
| 2. | Performance study on auto - cascade absorption refrigeration cycle using r32 r134a dmf as working pairs
作为工质的自行复叠吸收制冷循环性能分析 |
| 3. | The experimental results can be employed as a reference for the further research of the same sorts of absorption refrigeration units using tfe - nmp as the working pair
所得的实验结果能够为以tfe / nmp为工质对的同类吸收式制冷机组的进一步研究提供参考。 |
| 4. | 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。 |
| 5. | The working pairs and cycles suitable for diesel exhaust heat recovery are chosen . the empirical adsorption rate of cacia ? ha pair is modified through experimental investigation for non - equilibrium adsorption condition . 2
确定了适合内燃机余热回收的吸附工质对和循环方式,在非平衡吸附的条件下,采用实验测试手段,修正了氯化钙一氨工质对的经验型吸附速度方程。 |
| 6. | A detailed investigation on the condensation heat transfer of the condenser of the novel absorption refrigeration unit , which is provided by japanese sanyo group is carried out in this thesis . mechanism of the condensation heat transfer is highlighted when tfe - nmp is used as the working pair in the condenser
本文的研究对象是日本三洋电机株式会社提供的新型吸收式制冷实验机中的冷凝器,研究重点是冷凝器在使用新型工质对tfe - nmp时的凝结换热情况。 |
| 7. | The dissertation shows how a series of well - performing composite adsorbents that prepared by author suitable for the features of adsorption refrigeration are gained by using water and ethanol as cryogen ( adsorbate ) , which cause no harm to body and environment . the performance of the working pairs of water or ethanol with the composite adsorbents in the refrigeration through adsorption and desiccant cooling are thoroughly examined by experiments . the dissertation also examines , through energy analysis , the refrigeration efficiency and utilization ratio of the adsorption refrigeration , and analyzes the economic potential of the adsorption air - conditioning
以对人体无伤害、对环境无污染的水和乙醇作为吸附制冷工质,研制出适合于吸附制冷特点的性能优良的一系列复合吸附剂;对水或乙醇与自制复合吸附剂组成的制冷工质对的吸附式制冷和吸附除湿制冷的性能进行了深入的实验研究;用有效能分析方法讨论了吸附制冷循环的制冷效率和能量的利用率;对吸附式空调的经济性进行了分析。 |
| 8. | Therefore , m4 - 0132 - water and m1 - 0001 - ethanol are good adsorption working pairs in the process of adsorption refrigeration driven by solar energy and low - grade thermal energy . ( 2 ) apply the related mechanism analysis method used in catalyst to the mechanism research in composite adsorbents . a new way of research is put up here , in which the pyridine is used as probe compound , and
对本文研究的制冷工质对的制冷工况分析结果表明:自制复合吸附剂m4一01犯一水和ml一0001一乙醇适用于空调等大循环量的制冷系统, ml一9906一乙醇和mz一0003一乙醇可用于制冰和冷冻等需要低温的制冷场所。 |
| 9. | Considering the weakness of the solar - power adsorbers in refrigeration / air conditioning , such as the effects of heat collecting in desorption period and heat loss in adsorption period , here , a new adsorber is proposed ? ? evacuated tube which is cooled by water . simulation calculations and experiments have been performed . with a view to the intermittent characteristics of solar - powered adsorption , a continuous cycle operation for the adsorption refrigeration cooling system with active carbon fibre ( acf ) - methanol adsorption refrigeration working pair is carried out
本文针对目前太阳能固体吸附式制冷系统中吸附集热床在解吸阶段集热效率不高和在吸附阶段散热效果不理想的状况,以及针对太阳能固体吸附制冷系统循环的间歇性,本文提出了一种新型吸附集热器:真空集热管?水冷型吸附集热器,以活性炭纤维?甲醇为工质对实现连续制冷循环方式,并对其进行了相关的性能实验和数值模拟计算。 |
| 10. | On the basis of research achievements of theory and experiments about solar solid adsorption refrigeration in recent years , some key techniques of solar solid adsorption refrigeration , which refer as construction design , performance of system , running condition , choice of working pairs , are described in this paper with detailed
摘要基于近年来对太阳能固体吸附式制冷循环理论和实验方面所取得的研究成果,对太阳能吸附式制冷装置的结构设计、性能特性、运行工况、工质对选择等关键技术作了较深入细致的分析研究。 |
