助手标题  
全文文献 工具书 数字 学术定义 翻译助手 学术趋势 更多
查询帮助
意见反馈
   chen方程 的翻译结果: 查询用时:0.005秒
图标索引 在分类学科中查询
所有学科
数学
更多类别查询

图标索引 历史查询
 

chen方程
相关语句
  chen equation
     The third chapter introduces the basical idea and theory of the exact linearization controlling, then use this methods to control chaos of an ordinary differential system CHEN equation and apply the exact linearization controlling method to control the chaotic behaviours, i.e.controlling the chaotic states to steady states.
     第三章介绍了精确线性化控制方法的基本思想和理论根据,并应用精确线性化控制方法对具有典型混沌动力学行为和性质的一个常微分系统CHEN方程进行混沌控制,将CHEN方程的混沌状态控制为稳定状态。
短句来源
  “chen方程”译为未确定词的双语例句
     Among the very few correlations available for polar solvents, the modified Wilke-Chang equation[5,6] and Yang-Ma-Chen equation[7] were used to predict the infinite diffusion coefficient.
     使用修正的Wilke-Chang方程和Yang-Ma-Chen方程预测了高压乙醇体系的无限稀释扩散系数。
短句来源
     According to experimental results, four correlation models such as Wilke-Chang equation, Yang-Ma-Chen equation, He-Yu equation have been used to calculate the diffusion coefficients in ethanol under same conditions. In addition, Sun-Chen equation was employed to correlate infinite dilution diffusion coefficients of naphthalene and p-nitroanisole in nearcritical and supercritical ethanol.
     并采用Wilke-Chang方程、杨-马-陈方程和He-Yu方程对高压下实验数据进行了关联,采用Sun-Chen方程对近临界和超临界乙醇中扩散系数进了关联预测和对比。
短句来源
     The calculated diffusion coefficients agree well with experimental results at 40~60篊, with average deviations of 7.3% and 6.4% respectively.
     与实验测量值的对比结果表明,温度低于100C时修正的Wilke-Chang方程、Yang-Ma-Chen方程均能很好地预测高压乙醇体系的无限稀释扩散系数,平均偏差分别为7.3%和6.4%;
短句来源
  相似匹配句对
     Chen & S. Y.
     Chen&S. Y.
短句来源
     L. Chen & Y.
     L . Chen&Y .
短句来源
     The simple equation changes into nonlin-ear Schrodinger equation when viscous effect is died away.
     dinger 方程
短句来源
     Synthetic Aperture Radar Equations
     合成孔径雷达方程
短句来源
查询“chen方程”译词为用户自定义的双语例句

    我想查看译文中含有:的双语例句
例句
没有找到相关例句


The infinite diffusion coefficient of benzene, pyridine and p-nitroaniline in ethanol was measured by Taylor dispersion technique under 40~200篊 and 0~16MPa. The established apparatus demonstrated acceptable accuracy by comparing some measured diffusion coefficients with literature data. Experimental results show that the diffusion coefficient of the above solutes in ethanol does not change with pressure at low temperature, whereas it significantly reduces with pressure increase at high temperature. Among the...

The infinite diffusion coefficient of benzene, pyridine and p-nitroaniline in ethanol was measured by Taylor dispersion technique under 40~200篊 and 0~16MPa. The established apparatus demonstrated acceptable accuracy by comparing some measured diffusion coefficients with literature data. Experimental results show that the diffusion coefficient of the above solutes in ethanol does not change with pressure at low temperature, whereas it significantly reduces with pressure increase at high temperature. Among the very few correlations available for polar solvents, the modified Wilke-Chang equation[5,6] and Yang-Ma-Chen equation[7] were used to predict the infinite diffusion coefficient. The calculated diffusion coefficients agree well with experimental results at 40~60篊, with average deviations of 7.3% and 6.4% respectively. When the temperature is over 100篊, however, the calculated diffusion coefficients are much higher than experimental points due to the change of association number with both pressure and temperature. The studied infinite diffusion coefficient of both pyridine and p-nitroaniline in ethanol has not been found in literature.

在40~200C、0~16MPa范围内,运用Taylor分散技术实验测定了苯、吡啶和对硝基苯胺在乙醇中的无限稀释扩散系数。对于上述三种溶质,低温下扩散系数几乎不随压力变化;当温度超过100C时,扩散系数随压力的增加明显下降,温度越高下降趋势越明显。使用修正的Wilke-Chang方程和Yang-Ma-Chen方程预测了高压乙醇体系的无限稀释扩散系数。与实验测量值的对比结果表明,温度低于100C时修正的Wilke-Chang方程、Yang-Ma-Chen方程均能很好地预测高压乙醇体系的无限稀释扩散系数,平均偏差分别为7.3%和6.4%;但在高温条件下,除温度因素外,压力对缔合因子也有很大影响,从而使模型计算值远高于实验测定结果。吡啶和对硝基苯胺在乙醇中的无限稀释扩散系数未发现有文献报导。

 
图标索引 相关查询

 


 
CNKI小工具
在英文学术搜索中查有关chen方程的内容
在知识搜索中查有关chen方程的内容
在数字搜索中查有关chen方程的内容
在概念知识元中查有关chen方程的内容
在学术趋势中查有关chen方程的内容
 
 

CNKI主页设CNKI翻译助手为主页 | 收藏CNKI翻译助手 | 广告服务 | 英文学术搜索
版权图标  2008 CNKI-中国知网
京ICP证040431号 互联网出版许可证 新出网证(京)字008号
北京市公安局海淀分局 备案号:110 1081725
版权图标 2008中国知网(cnki) 中国学术期刊(光盘版)电子杂志社