无热再生吸附式干燥机一般要消耗15%左右的再生压缩空气。
No heat regenerative adsorption dryer to consume about 15% of the regeneration compressed air.
有热再生吸附式干燥机是通过“温度变化”来达到干燥效果。因为空气容纳水汽的能力与温度呈正比。
A heat regenerative adsorption dryer is through the "temperature" to achieve the drying effect. Because the air containing moisture capacity and temperature is proportional to.
有热再生吸附式干燥机根据加热方式又可分为内加热型吸附式干燥机和外加热型吸附式干燥机。
A heat regenerative adsorption dryer according to the heating mode can be divided into internal heating and external heating type adsorption dryer adsorption dryer.
再生型吸附式干燥机一般分为无热再生吸附式干燥机和有热再生吸附式干燥机。
Regenerative adsorption dryer is generally divided into no heat regenerative adsorption dryer and a heat regenerative adsorption dryer.
同时长时间回热也减慢了吸附床的升降温速率,影响了系统运行的制冷量和能效比。
The longer heat recovery time slows the speed of adsorber temperature-up and temperature-down so as to effect on refrigerating power and COP.
无热再生吸附式干燥机是通过“压力变化”来达到干燥效果。
No heat regenerative adsorption dryer is through the "pressure" to achieve the drying effect.
详细介绍了传统的微热再生吸附式压缩空气净化系统的工作原理及存在的缺点。
The text introduced work principle and existent disadvantage particular for traditional tepefaction regeneration adsorption type compress air decontamination system.
在超高真空条件下,用对样品进行闪烁加热的方法测定了蓝色氧化钨WO _(2.90)吸附丙烯和氧的热脱附谱。
The thermal desorption spectra of propene and oxygen adsorbed on blue tungsten oxide WO_ (2.90) have been measured by means of flash heating the sample in ultra high vacuum.
吸附平衡常数具有热力学性质,从不同温度的吸附平衡常数可以得到积分吸附热。
Adsorption equilibrium constant has thermodynamic properties. The integral adsorption heat can be acquired from the adsorption equilibrium constants at different temperatures.
对双醛纤维素吸附明胶的各种条件、吸附产物的红外吸收和热重热解曲线图进行了研究。
The condition of adsorbing gelatine by dialdehyde cellulose was investigated, and the adsorption product was analyzed with FT-IR spectrometry and thermogravimetry.
热失重分析表明,不同溶剂与酚醛树脂的竞争性吸附导致树脂在石英表面平衡吸附量存在差异。
Thermo-gravimetric analysis (TGA) shows that competitive adsorption between phenolic resin and various solvents results in different equilibrium adsorption quantity on silica surface.
采用热分析仪和高温静态吸附等实验研究了YBCO材料的氧的呼吸特性。
We study the respiration character of YBCO for oxygen by the thermal analyzer experiment and high temperature static adsorption experiment.
研究了用于瓦斯气体吸附分解的多孔碳化硅陶瓷,并设计了多孔碳化硅陶瓷瓦斯热解装置。
Porous SiC ceramic that is used in gas adsorption and pyrogenation is studied. The equipment of porous SiC ceramic gas pyrogenation is designed.
热解气体中含有少量的水蒸气、经过干燥、碱性吸附后主要成分有一氧化碳、甲烷和乙烷等低级烷烃。
Pyrolysis gas contains a small amount of water vapor, after drying, after alkaline adsorption, the main components are lower alkanes such as carbon monoxide, methane and ethane.
在超高真空条件下用热脱附和功函数变化等方法研究了氧在银-钡催化剂上的吸附和反应。
Under ultra high vacuum condition, the adsorption of oxygen and ethylene on electrolytic silver containing barium was studied by mass spectroscopy and work function change measurement.
体系经油砂吸附和热老化后仍能保持较低的界面张力。
Low interfacial tension may be kept after oil sand adsorption and thermal ageing in the system.
考察了驱油体系经岩石吸附和热老化以后的界面张力特征;
The property of interfacial tension in oil displacement system through rock absorption and thermal ageing is investigated.
使用常压固定床反应器,考察了吸附SO2的柱状V/AC催化剂的热再生和NH3再生行为。
The heat regeneration of cylindrical V/AC catalyst for adsorbing SO2 and NH3 regeneration were studied by an atmospheric fixed-bed reactor.
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。
The measurement results show that the adsorption refrigeration system can be powered by evacuated tube solar collector with rational area effectively.
介绍了变压吸附法制低露点氮气的基本原理及在热硫化硅橡胶生胶生产中的应用。
The principle of production of low-dew-point nitrogen by pressure swing adsorption(PSA) was described, and the application in the manufacture of silicone rubber was introduced.
计算结果表明,以大直径的真空管作吸附集热器时,可获得较好的综合性能;
Some results are obtained which show that evacuated tubes with a larger diameter can result in a higher temperature and better performance.
采用由微孔填充理论导出的吸附平衡方程对所测得的等温线进行了拟合,计算相应的吸附热;
The adsorption equilibrium equation deduced through the theory of volume filling of micro-pore was used to fit the adsorption isotherms (obtained, ) and corresponding adsorption heat was calculated.
设计并建立了一台连续回热型吸附式制冷试验样机。
Designed and established a continuously heat regenerative adsorption refrigeration experiment prototype.
通过红外光谱、热失重分析等对样品进行了结构性能表征。 测定了样品的吸水率及对干态、湿态CO2的吸附性能。
The chemical structures and the thermal stability of the fibrous adsorbent and their adsorption characteristics of water, dry CO2 and humid CO2, was studied.
活性炭吸附空气中丙烯,热解吸后采用气相色谱(FID)测定丙烯浓度。
Charcoal adsorption and thermal desorption were used for the sampling of propylene and analysis was performed by GC (FID).
结合实验,给出了不可逆吸附热的测定方法。
The method of measuring heat of irreversible adsorption was given in the experimental procedure.
微热型吸附式干燥机同时需关断加热器电源。
The heater's power supply also needs to be disconnected for micro heat absorption drier.
从等温线确定了等量吸附热并讨论了其影响因素。
The isosteric heats of adsorption were determined from the isotherms and the factors that influence their variations were discussed.
利用扫描电镜、热失重-红外、元素分析、低温氮吸附等技术和化学手段对聚羧酸基FFC-1离子交换纤维的结构与性能特点等进行了系统研究。
The structure and properties of Na and H type FFC-1 ion exchange fiber were studied using SEM, TG-IR, EA, BET and other chemical means.
利用扫描电镜、热失重-红外、元素分析、低温氮吸附等技术和化学手段对聚羧酸基FFC-1离子交换纤维的结构与性能特点等进行了系统研究。
The structure and properties of Na and H type FFC-1 ion exchange fiber were studied using SEM, TG-IR, EA, BET and other chemical means.
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