1)decomposition method分解法
1.Computation of periodic solutions for the nonlinear dynamic circuits based on the decomposition method;基于分解法的非线性动态电路周期解的计算
2.To computing determinant by "partitioning method parametric method decomposition method";用“分拆法、参量法、分解法”计算行列式
3.Adomian's decomposition method is applied to solve strong nonlinear differential equation with boundary values.Adomian分解法求解催化剂 n级反应扩散 -反应耦合非线性微分方程 ,通过应用边界条件初定和逼近解通式最后求取待定常数的方法 ,获得了 n级反应的逼近解析解的通式和一级反应的解析解 ,给出了有代表性的 2级及 0 。
英文短句/例句
1.Comparison Between Adomian Double Decomposion Method and Adomian Decomposion Method双重分解法及其与Adomian分解法的比较
2.To computing determinant by "partitioning method parametric method decomposition method";用“分拆法、参量法、分解法”计算行列式
3.fractional distillation分馏, 分解蒸馏(法)
4.Edman stepwise degradationEdman 分步降解(法)
5.Unable to deallocate media - deallocate call failed.无法解除分配媒体-解除分配调用失败。
6.Chemical analysis using electrolytic techniques.电解分析以电解法进行的化学分析
7.pulp-laboratory wet disintegration纸浆-实验室湿法分解
8.Numerical Methods for PDE偏微分方程数值解法
9.numerical solution of integral equation积分方程的数值解法
10.The approach to get the decomposition of the Kronecker product of matrix;求矩阵Kronecker积分解的方法
11.Binary factorization compression and Consensus algorithm二值分解压缩和Consensus算法
12.A New Method to Figure Out Differential Equation: Differential Arithmetic Operators Progression Method;微分方程的新解法——微分算子级数法
13.Water can be reduced to oxygen and hydrogen by electrolysis.用电解法可以把水分解为氢和氧。
14.Adomian Decomposition Method for Evolution Equations;发展方程求解的Adomian分解方法
15.Solutions to Inequality in Senior Math;高中数学“不等式解法”教学的分解处理
16.Solving solitary wave solutions of KdV equation with the homotopy analysis method用同伦分析法求解KdV方程的孤波解
17.Breather Solution to mKdV Equation by Using Variables Separation Method分离变量法求解mKdV方程的呼吸子解
18.Briefly introduce the method of rational function to resolve portion fraction;有理函数分解成部分分式的方法简介
相关短句/例句
decomposition[英][,di:k?mp?'zi??n][美][,dikɑmp?'z???n]分解法
1.By decomposition and coordination techniques for reducing its scope of solution process, the problem is split into a set of subproblems which provides a more practicable method for pro- gramming of electric power system.本文是应用扩展Benders分解法求解无功电源最优配置问题。
3)thermal decomposition method热分解法
1.Using Nd(NO3)3 ·6H2O and 2-nitrobenzoic acid(C7H5 N O4) as raw materials,the nanometer-sized Nd2O3 was prepared by thermal decomposition method.采用热分解法以2-硝基苯甲酸和硝酸钕为原料制备了纳米氧化钕微粉,利用正交设计对合成条件进行了优化,得出了最佳的合成条件,即原料2-硝基苯甲酸与硝酸钕物质的量比2。
2.The preparation method of cyclopentadiene (CPD) from bicyclopentadiene (DCPD) with liquid phase thermal decomposition method is studied.研究了采用液相热分解法由双环戊二烯(DCPD)制备环戊二烯(CPD)的实验条件。
3.The preparation method of cyclopentadiene(CPD) from bicyclopentadiene(DCPD) with liquid phase thermal decomposition method is studied.研究了采用液相热分解法由双环戊二烯(DCPD)制取环戊二烯(CPD)的方法。
4)thermal decomposition热分解法
1.Nano-WO3 was prepared by thermal decomposition of (NH4)2WO4 at different temperures of 350~600 ℃.以钨酸铵为原料,在350~600℃不同温度下,用热分解法制备了纳米WO3。
2.Nano ZnO is prepared by using the polymerized thermal decomposition.采用聚合物包覆热分解法化学工艺制备了纳米氧化锌,对其工艺进行系统的比较研究,对所得粉体进行XRD与SEM表征。
3.Molybdenum disulfide nanoparticles is prepared by thermal decomposition of ammonium tetrathiomolybdate.以硫钼酸铵为原料,热分解法制备出了二硫化钼纳米粉末,采用TEM,SEM,XRD和ED等方法检测了产物的形貌、组成、结构。
5)Adomian decomposition methodAdomian分解法
1.Adomian decomposition method for solving dynamic model of immune responses;应用Adomian分解法求解免疫反应的数学模型(英文)
2.The analytical solution of a viscoelastic continuous beam whose damping characteristics are described in terms of a fractional derivative of arbitrary order was derived by means of the Adomian decomposition method.利用Adomian分解法,得到了由任意阶分数微分描述的具有阻尼特性的黏弹性连续梁的解析解。
3.Using the separation of variables method and Adomian decomposition method,the analytic and approximate solutions of the TFTE with homogeneous and non-homogeneous Dirichlet boundary conditions are obtained,which can be expressed in the form of series,then computed easily.我们考虑了带初边值条件的时间分数阶电报方程的解问题,借助于变量分离技巧和Adomian分解法,得到该问题分别在齐次和非齐次Dirichlet边界条件下的解析解和近似解,它们都可显式地表示成级数形式,从而易于近似数值计算。
6)thermal-deposition热分解法
1.lead dioxide electrodes on Ti substrates were produced by thermal-deposition and electro-deposition.研究了热分解法和电沉积法制备二氧化铅电极的工艺,通过对苯酚的电解和生成羟基自由基的量,比较了两种方法制得的电极的催化性能,并比较了采用电沉积法制备电极时掺杂铋或镧对电极的催化性能的影响。
延伸阅读
氨分解法氨分解法ammonia destruction process 先在余热锅炉内冷却至280℃,再由锅炉软水冷却至200℃,然后送至焦炉煤气初冷器前的吸煤气管道.余热锅护回收的废气热量能生产1.05州田a的中压蒸汽。分解护用焦炉煤气加热,以维持炉温1 100一1150℃。当分解炉短时间停产时,氨气可自动返回粗煤气管道。分解护装有火焰监测器和安全联锁装置。一旦出现煤气、空气压力过低或锅炉水位过低等不正常状态时,分解炉便自动熄火。 氨分解法的特点是:氨分解率高,可达100%;氰化氢分解率也达100%。废气送入吸煤气管道,不污染大气。装置年工作日为330天。 (石岩)an fenjiefa氮分解法(ammon讯uestruetion process)水洗氛法回收氛的方法之一。该法以软水为吸收液,回收燕炉煤气中的氨,并在高温和催化剂等作用下将氨分解为氮和氢。氨分解法是德国开发的。欧洲一些国家和日本相继采用,1990年氨分解法装置在中国建成并投产。 氨分解法的工艺流程见图。焦炉煤气在终冷塔降 煤气一〕下/ 氨分解法的工艺流程 1一终冷塔;2一1号洗氮塔;3一2号洗氨塔; 4一蒸氨塔;5一氨分解炉;6一余热锅妒温后,进入两台串联的洗氮塔,煤气中的氨被喷洒的软水回收。从l号洗氨塔排出的富氨水经换热送入蒸氛塔,被塔下部送入的蒸汽蒸出氨,氨气从塔顶排出。蒸氨废水经换热和冷却后送入洗氨塔循环使用。蒸氨塔顶排出的氨气进入氨分解炉,在高温和催化剂作用下,氨气中的氨和氰化氢分解为氮、氢、一氧化碳和水气。炉内的主要反应为: NH3—~1 .5H2+0.5N2 HCN十HZO—~ 1 .5H2+CO十0.5N2 这些反应均为放热反应。炉内产生的高温废气首
