以棕红壤为对象,采用等温平衡吸附法,研究了不同有机酸种类和浓度对土壤磷吸附的影响。
It was studied that the effect of different kinds of organic acids and their concentrations on the soil phosphate absorbing capacities by way of isothermal absorption in the brown soil.
给出了吸附容量、保留量、等温曲线、温度与平衡压的关系曲线。
Absorption capacity, gas retaining, isotherm curves, and relationships between desorption equilibrium pressure and temperature are given.
基于平衡水等温吸附实验,估算了褐煤层中的吸附气含量。
Based on isothermal methane-adsorbing experiments under equilibrium moisture, gas-adsorbing in the lignite reservoir were estimated.
在较低温度下等温,非平衡偏聚促进了晶界硼相的析出和平衡偏聚的建立。
During isothermal holding at low temperature, the nonequilibrium segregation promotes precipitation of boron constituent and establishment of equilibrium segregation at grain boundaries.
吸附实验确定了HPW12在载体上的吸附平衡时间及吸附等温线方程。
The balance time and isotherm equation for the adsorption of HPW12 on the carrier are determined.
吸附等温线是平衡方程序。
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.
当体系处于平衡时,应用化学等温式就可求算平衡常数K。
When the system maintains its equilibrium, constant K of the equilibrium can be obtained by means of chemical isotherm formulas.
浓度大于0.1%,油砂表面的吸附与脱附达成平衡,吸附等温线出现平台。
When the concentration of surfactant is above 0.1%, the adsorption and desorption on the reservoir sand are balanced, in which the adsorption isotherm is level.
对等温过程中的临界时间公式进行了理论分析与实验验证,证实了临界时间公式用于预测溶质原子非平衡晶界偏聚量达到极大值的恒温时间的准确性。
Theory analysis and experiment had been done for confirming the veracity of the critical time formula used for forecasting the holding time at which the segregation concentration reaches a maximum.
对等温过程中的临界时间公式进行了理论分析与实验验证,证实了临界时间公式用于预测溶质原子非平衡晶界偏聚量达到极大值的恒温时间的准确性。
Theory analysis and experiment had been done for confirming the veracity of the critical time formula used for forecasting the holding time at which the segregation concentration reaches a maximum.
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