The refrigerating identity of an adsorption cooling tube applied in mobile machinery shop air conditioning is researched in this paper.
研究了一种应用于工程车司机驾驶室的新型制冷管的制冷性能。
The simulated results show that the effect of tube walls and inner-walls distance on adsorption ability is apparent.
模拟结果表明:多壁碳纳米管的管壁数和管壁间距对吸附性能的影响较明显;
The simulations on the tube and the primary experiments on the adsorber combined by the unit tubes indicate that the heat and mass transfer performance of the adsorption unit tube is very good.
通过数值计算和由吸附单元管组合而成的吸附床的性能初步试验,证明该结构形式的吸附单元管具有优良的传热传质性能。
The adsorption bed structure filling sorbent in tube and flowing heat transfer media out of tube was designed and the corresponding mathematical model was established.
设计了管内填充吸附剂,管外走传热介质的新型吸附床结构,建立了相应的数学模型。
In the adsorption refrigeration system, three enhanced heat transfer models of tube adsorbent bed are designed.
介绍了吸附式制冷系统中吸附床的三种强化传热模型结构设计方案。
Objective: To study the adsorption of isosorbide dinitrate by plastic infusion bag and tube.
目的:研究塑料输液袋和输液管对硝酸异山梨酯的吸附性。
The measurement results show that the adsorption refrigeration system can be powered by evacuated tube solar collector with rational area effectively.
结果表明,采用高效的真空管太阳能热水系统,合理配置集热器面积,能够稳定地驱动吸附式制冷系统。
Methods: Active carbon tube adsorption and solvent desorption were used for sampling hexane and analysis was performed by GC(FID).
方法:以活性碳管采集空气中正己烷,用二硫化碳解吸后气相色谱(FID)测定。
In two imported directly by precision inner diameter glass tube adsorption column (standard wall glass tube adsorption column is no longer supported), more user-friendly.
直接采用两支进口精密内径玻璃管吸附柱(标准壁玻璃管吸附柱不再配),更方便用户使用。
Methods:Silica gel tube adsorption and solvent desorption were used for sampling of methacrylic acid and analysis was performed by HPLC.
方法:以硅胶管采集空气中甲基丙烯酸,用甲醇解吸后高效液相色谱测定。
A new detection tube for formaldehyde gas based on passive sampling has been developed according to the principle of the gas molecular diffusion and chemical adsorption.
新研制的甲醛被动式检气管是建立在气体分子扩散和化学吸收原理基础上的。
Conclusion The Maifanshi adsorption is concerned with specific surface and capillary tube coacervation.
结论:麦饭石的应用与它的表面性质有关且与它的毛细管凝聚作用相关联。
The main operating parameters of this device such as length of distillation tube, volume of collected condensate, and choice of adsorption media were optimized.
对其精馏管长度、回收冷凝液体积、吸收介质等影响富集效果的关键因素进行了优化。
The invention has the advantages that (1) the outer wall heat tube can obtain ultra high-adsorption ability via heat tube effect;
外壁热管通过热管效应形成超常的 高吸热能力;
The invention has the advantages that (1) the outer wall heat tube can obtain ultra high-adsorption ability via heat tube effect;
外壁热管通过热管效应形成超常的 高吸热能力;
应用推荐