adsorption heat

Progress on adsorption heat effect of adsorbed natural gas

ANG中吸附热效应的研究进展

Research on wetting heat and adsorption heat between the surface of solid and liquid

液固表面的润湿热和吸附热

Research on the Adsorption Heat of Natural Gas Adsorption Storage

吸附贮存天然气吸附热的研究

The adsorption heat research status of natural gas and hydrogen adsorption storage

天然气和氢气吸附储存吸附热研究现状

Thermodynamic analysis of an adsorption heat pump cycle

吸附式热泵循环的热力学分析研究

The determination and analysis of the adsorption heat of water on zeolite in the refrigeration cycle

沸石分子筛用于制冷循环时的吸附热测定及分析

The results show that the simulated pressure and temperature is increased significantly when increasing the equivalent adsorption heat .

结果表明，增加等量吸附热时模拟的压力和温度明显上升。

The Study about Adsorption Heat on 5A Molecular Sieve with Reverse Gas Chromatogram

5A型分子筛吸附热的反相气相色谱研究

The studies on soil boron adsorption heat and temperature effect on properties of boron hysteretic desorption

土壤硼吸附热及温度对硼滞后解吸特性影响的研究

Comprehensive Analysis of Adsorption Heat Pump and its Application on Co-generation System of Cooling Heating and Electricity Supplying

吸附式制冷热泵及其在冷热电联供系统应用的能源利用分析

The effect of operating temperatures on the coefficient of performance of the adsorption heat pump was also tested and discussed .

测试和模拟了循环操作温度对吸附热泵效率的COP值的影响；

The adsorption heat is less than zero , indicating that the adsorption is exothermic .

吸附热小于零，吸附是放热反应。

The nitrogen and oxygen isotherms and adsorption heat of the different zeolites were also measured and calculated .

测试其氮、氧静态吸附等温线以及吸附热数据，并对数据结果进行分析。

Both sensible heat and adsorption heat of adsorbent bed can be recovered efficiently and easily .

该装置能有效地回收太阳固体吸附式制冷循环中吸附床的显热及吸附热，且操作简便。

The adsorption heat released in the process of adsorption cooling could be used to induce natural ventilation in the night .

另一方面利用吸附床吸附制冷过程释放大量吸附热的现象，用于强化夜间自然通风。

The experimental study on adsorption heat and summarize various measures to solve the adsorption heat problem , and the new research direction have been reviewed .

该文综述了前人针对吸附热问题在实验上的研究，总结了前人提出的各种吸附热问题的解决方案，并对新的研究方向进行了探索。

H2S adsorbed on bridging hydroxyl group prior to silanol OH group from the adsorption heat .

从H2S在沸石分子筛的桥羟基和硅羟基与H2S相互作用的吸附热可以推断，H2S优先吸附在桥羟基上。

The values of activity energy , integral adsorption heat and pre-exponential factor were obtained by the kinetic parameters estimated from the model .

通过模型估计得到的参数值，计算出了各步可逆反应的活化能、积分吸附热和指前因子的值。

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。

The advantages of adsorption heat pump under two kinds of working conditions , with and without recovery of cooling and adsorption heat are analysed in this paper .

注重分析了回收和不回收降温、吸附热时，三效吸附式热泵与其它系统相比的优越性。

The differential adsorption heat versus filling degree of many organic solvents on activated carbons were measured with results similar to those in the reference .

测定了许多活性炭对各种有机试剂的微分吸附热与填充度的关系曲线，其结果与前人文献的结果基本一致。

Its adsorption heat for water is -13.06kJ/mol and - 16.11kJ / mol , respectively .

两种氯化镁水合物对水的吸附热分别为-1306kJ/mol和-1611kJ/mol。

The adsorption heat of water is - 55.73kJ / mol , which indicates that the adsorption of ZSG-1 to water is physical adsorption .

计算得到水的吸附热为-55.73kJ/mol，从而得出淀粉质吸附剂ZSG-1对水的吸附属于物理吸附。

The adsorption heat equal to - 7.6kJ / mol , which suggested that the adsorption was dominated by Van Der Waals force .

吸附热值-7.6kJ/moL，水葫芦根系吸附硝基苯的主要作用力是范德华力。

The adsorption heat of steam on the catalyst decreased and the amount of adsorbing centers did not change as the amount of cerium oxide in the samples was increased .

实验结果表明，随着铈含量的增加，样品对水蒸汽的可逆吸附过程的吸附热降低，铈含量超过一定值后吸附热又略有升高。

The variation regularity for activation energy of thiophene HDS is the same as that of adsorption heat on MoS 2 / Mg ( Al ) O.

MoS2/Mg（Al）O催化剂上噻吩HDS反应的活化能随着MoO3含量的变化情况与吸附热的变化情况相似。

The equation of Clausius-Clapeyron was used for calculating the adsorption heat of water on 4A molecular sieves . According to the adsorption heat , the mechanism of adsorption was discussed .

采用Clausius-Clapeyron方程计算了水在4A分子筛上的吸附热，并据此探讨了吸附机理；

The adsorption heat values range from 20 kJ / mol to 23 kJ / mol. The absorption exhibits both surface physical ( adsorption ) and ion-exchange mechanism .

其吸附均为吸热过程，吸附热值在20~23kJ/mol范围，吸附表现为表面物理吸附和离子交换作用。

The adsorption heat of NH3 and CO2 on H - STI calculated by the adsorption isotherms at different temperature was 44.8 and 26.5 kJ / mol respectively .

根据NH3和CO2在H-STI沸石上的吸附等温线计算得到它们的吸附热分别为44.8和26.5kJ/mol。

With increase in adsorbed quantity , adsorption heat increased , free enthalpy change declined slightly , adsorption entropy increased , entropy of adsorbed phase decreased and interaction between the molecules increased .

随着吸附量的增大，吸附等容热增大，吸附的吉布斯自由能变稍有下降，吸附熵变逐渐增大，吸附相的熵逐渐减小，分子间的相互作用逐渐增强。