Firstly, all of univariant line equations are attained; secondly, a crossing point ( φ i , pH i ) is got by solving univariant line equations including a main component(M i ) one another; thirdly, φ i is compared with the chemical potentials φ of other components in this crossing point by chemical potentials minimization.
提出了一种新的绘制φ—pH 图的方法, 即先求出所有的单变线方程, 再选取某一种组分Mi 为主组分, 把含有该组分的所有单变线方程两两求解, 求出交点( φi ,pHi) , 然后用化学势约束原理法, 将主组分同其它组分在该点的化学势作比较, 若前者的化学势小于后者, 则该点为所求的三相点。
Firstly, all of univariant line equations which are based on chemistry model are attained.
即依据化学模型求出单变线方程 ,选取某一种组分M为主组分 ,把含有该组分的所有单变线方程两两求解 ,求出其交点 (Eh ,pH) ,根据三相点的涵义和电化学意义 ,三相点若稳定 ,则在该点至少有 3个不同的组分共存 。
At first , the artificial neural network(ANN) models with nonlinear time series are established , then time series for single variable and multiple variables are studied with the models.
首先构造出人工神经网络非线性时序模型 ,然后用该模型进行单变量和多变量时间序列预报研究。
Study of power synthesis SMPS methods with high-reliability and multi-phase controlled transformer;
高可靠性单变压器多相控制功率合成SMPS方案研究
Research on the Technology of Order Change and Production Planing for Machine Manufacturing Enterprises Informationization;
机械制造企业信息化中订单变更及生产计划技术研究