A comprehensive review is given on the working principle of absorption and adsorption heat pumps, the study and development of their working pairs and cycles.
本文叙述了升温型吸收和吸附式热泵的工作原理,热泵工质对及热泵循环系统的研究与进展状况。
Adsorption equilibrium constant has thermodynamic properties. The integral adsorption heat can be acquired from the adsorption equilibrium constants at different temperatures.
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。
A calorimetric system which was made by the combination of Differential Thermal Analysis (DTA) and Gas Chromatography for measuring adsorption heat is described in this paper.
本文介绍了一种差热分析与色谱联用法测吸附热的量热系统。
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.
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;
No heat regenerative adsorption dryer to consume about 15% of the regeneration compressed air.
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。
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 according to the heating mode can be divided into internal heating and external heating type adsorption dryer adsorption dryer.
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。
Regenerative adsorption dryer is generally divided into no heat regenerative adsorption dryer and a heat regenerative 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。
Heat exchanger, condensate traps with automatic drainage, adsorption dryer, 10-micron filter.
热交换器,冷凝水自动排放,吸附干燥,10微米过滤器。
No heat regenerative adsorption dryer is through the "pressure" to achieve the drying effect.
无热再生吸附式干燥机是通过“压力变化”来达到干燥效果。
A continuously heat adsorption refrigeration experiment prototype is designed and established.
设计并建立了一台连续型吸附式制冷试验样机。
The physical structure, water vapor adsorption isotherms, heat of wetting, DTA and IR for esterified silica gel were determined.
测定了酯化硅胶的物理结构、水蒸气吸附等温线、润湿热、差热分析和红外光谱。
According to the thermal load of fresh keeping and cooling in fishing ship Z6170 and extra heat calculation of diesel engine's tail gas, we have designed Adsorption cooling System with two beds.
本课题根据对Z 6170型渔船的保鲜制冷热负荷的计算及其柴油发动机的尾气余热指标,设计了双床吸附式制冷系统。
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.
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。
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。
According to its character, sepiolite is used to make adsorption tissue with softwood pulp after heat activation, the paper can roll into stick as cigarette filter tip.
本文实验就是利用海泡石的这一特性,先将海泡石进行高温活化,再将其与木浆混合配抄吸附型薄页纸,此纸可以卷制成滤嘴棒作卷烟滤嘴。
The method of measuring heat of irreversible adsorption was given in the experimental procedure.
结合实验,给出了不可逆吸附热的测定方法。
The adsorption processes were spontaneous and irreversible with heat evolution. The increase of temperature was not benefit to the adsorption.
吸附过程自发不可逆,且放出热量,提高温度对吸附不利。
Result showed that isothermal mass recovery loop can be better to match adsorption refrigeration system driving by fuel cell electrical vehicle waste heat.
综合比较计算结果及燃料电池余热的特点,确定燃料电池汽车余热驱动吸附式制冷系统采用两床连续等温回质循环方式。
Meanwhile, in this combined system, the recovery of partial adsorption and visible heat of adsorption subsystem may lead to the improvement of COP.
同时,由于对吸附热的有效回收,系统的COP有一定的提高。
A novel adsorption air-conditioner is developed, which employs zeolite-water as working pair and is driven by the waste heat from the exhausted gas of internal-combustion engine.
本系统是一种采用分子筛-水吸附式制冷原理、以内燃机排气的余热驱动的新型空调系统。
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。
Solid adsorption refrigeration, using natural, harmless refrigerants and heat recovery system, has its advantage and bright future, compared with the traditional refrigeration system.
以天然无害制冷剂及余热作为能源的固体吸附式制冷与常规制冷相比有着不可估量的发展前景。
If large facilities to ensure no oil, no oil pump need not choose ethnic groups, such as: water pump, molecular sieve adsorption pump, sputter ion pumps, heat pumps.
若设施宽大务求无油时,无须选各族无油泵,如:水环泵、分子筛吸附泵、溅射离子泵、高温泵等。
In this paper, the heat transfer efficiency of the adsorption bed with different structure was studied with theoretic and experimental approaches.
通过改变液氮在传热过程中的流动状态,改善液氮与吸附床之间的热交换效率。
Designed and established a continuously heat regenerative adsorption refrigeration experiment prototype.
设计并建立了一台连续回热型吸附式制冷试验样机。
Analysis and calculation of the heat transfer in the adsorber is one of important fundamental tasks in the adsorption cooling study field.
吸附床内传热过程的分析和计算是吸附式制冷研究的重要基础内容之一。
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。
Results active carbon has strong capacity of adsorption, however the common active carbon on market is only used to remove color, adsorb heat source and delete tastes.
结果活性炭具有很强的吸附功能,普通市售活性炭仅用作脱色、吸附热原与除味等。
Results active carbon has strong capacity of adsorption, however the common active carbon on market is only used to remove color, adsorb heat source and delete tastes.
结果活性炭具有很强的吸附功能,普通市售活性炭仅用作脱色、吸附热原与除味等。
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