通过机理分析法建立了球磨机中储式制粉系统的动态数学模型。
Dynamic mathematical model of ball mill pulverizing system with storage bunker is obtained by mechanism analysis.
阐述了中储式制粉系统的构成以及工艺过程,并对中储式制粉系统的运行作了介绍。
The paper analyze and outline the process of pulverized coal milling system with intermediate storage bunker, and introduce system's operation.
从工作机理出发,对影响制粉系统的出力及安全的几方面因素作了详尽的分析,对中储式制粉系统的安全运行有着重要意义。
In the view of working process, the paper analyze and explain a variety of factors that affect mill output and security. It has important effect on security operation of mill system.
中储式球磨机制粉系统是一个多变量、强耦合的对象,数学模型难以建立。
Tube mill pulverizer system is a multi variable and strong coupling process, which is difficult for mathematical model establishing.
中储式球磨机制粉系统是一个多变量、强耦合的对象,数学模型难以建立。
Tube Coal Mill System with Intermediate Storage Bunker is a process of multi-variables, strong coupling and very difficult to establish mathematical models.
本文首先根据中储式球磨机制粉系统对控制精度要求不高的特点,将传统解耦方法中的逆矩阵方法应用于制粉系统解耦中,设计了基于逆矩阵静态解耦的PID控制系统。
According to the demands of ball mill coal pulverized system, inverse matrix decoupling theory, a traditional decoupling method, is used in the system control, and a PID controller is designed.
本文首先根据中储式球磨机制粉系统对控制精度要求不高的特点,将传统解耦方法中的逆矩阵方法应用于制粉系统解耦中,设计了基于逆矩阵静态解耦的PID控制系统。
According to the demands of ball mill coal pulverized system, inverse matrix decoupling theory, a traditional decoupling method, is used in the system control, and a PID controller is designed.
应用推荐